913 lines
35 KiB
Plaintext
913 lines
35 KiB
Plaintext
PEP: 540
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Title: Add a new UTF-8 mode
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Version: $Revision$
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Last-Modified: $Date$
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Author: Victor Stinner <victor.stinner@gmail.com>
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Status: Draft
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Type: Standards Track
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Content-Type: text/x-rst
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Created: 5-January-2016
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Python-Version: 3.7
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Abstract
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========
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Add a new UTF-8 mode, disabled by default, to ignore the locale and
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force the usage of the UTF-8 encoding.
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Basically, the UTF-8 mode behaves as Python 2: it "just works" and don't
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bother users with encodings, but it can produce mojibake. The UTF-8 mode
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can be configured as strict to prevent mojibake.
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New ``-X utf8`` command line option and ``PYTHONUTF8`` environment
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variable are added to control the UTF-8 mode. The POSIX locale enables
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the UTF-8 mode.
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Rationale
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=========
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"It's not a bug, you must fix your locale" is not an acceptable answer
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----------------------------------------------------------------------
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Since Python 3.0 was released in 2008, the usual answer to users getting
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Unicode errors is to ask developers to fix their code to handle Unicode
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properly. Most applications and Python modules were fixed, but users
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keep reporting Unicode errors regulary: see the long list of issues in
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the `Links`_ section below.
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In fact, a second class of bug comes from a locale which is not properly
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configured. The usual answer to such bug report is: "it is not a bug,
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you must fix your locale".
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Technically, the answer is correct, but from a practical point of view,
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the answer is not acceptable. In many cases, "fixing the issue" is an
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hard task. Moreover, sometimes, the usage of the POSIX locale is
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deliberate.
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A good example of a concrete issue are build systems which create a
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fresh environment for each build using a chroot, a container, a virtual
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machine or something else to get reproductible builds. Such setup
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usually uses the POSIX locale. To get 100% reproductible builds, the
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POSIX locale is a good choice: see the `Locales section of
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reproducible-builds.org
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<https://reproducible-builds.org/docs/locales/>`_.
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UNIX users don't expect Unicode errors, since the common command lines
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tools like ``cat``, ``grep`` or ``sed`` never fail with Unicode errors.
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These users expect that Python 3 "just works" with any locale and don't
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bother them with encodings. From their point of the view, the bug is not
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their locale but is obviously Python 3.
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Since Python 2 handles data as bytes, it's rarer in Python 2
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compared to Python 3 to get Unicode errors. It also explains why users
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also perceive Python 3 as the root cause of their Unicode errors.
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Some users expect that Python 3 just works with any locale and so don't
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bother with mojibake, whereas some developers are working hard to prevent
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mojibake and so expect that Python 3 fails early before creating
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mojibake.
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Since different group of users have different expectations, there is no
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silver bullet which solves all issues at once. Last but not least,
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backward compatibility should be preserved whenever possible.
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Locale and operating system data
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--------------------------------
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.. _operating system data:
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Python uses an encoding called the "filesystem encoding" to decide how
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to encode and decode data from/to the operating system:
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* file content
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* command line arguments: ``sys.argv``
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* standard streams: ``sys.stdin``, ``sys.stdout``, ``sys.stderr``
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* environment variables: ``os.environ``
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* filenames: ``os.listdir(str)`` for example
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* pipes: ``subprocess.Popen`` using ``subprocess.PIPE`` for example
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* error messages: ``os.strerror(code)`` for example
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* user and terminal names: ``os``, ``grp`` and ``pwd`` modules
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* host name, UNIX socket path: see the ``socket`` module
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* etc.
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At startup, Python calls ``setlocale(LC_CTYPE, "")`` to use the user
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``LC_CTYPE`` locale and then store the locale encoding as the
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"filesystem error". It's possible to get this encoding using
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``sys.getfilesystemencoding()``. In the whole lifetime of a Python
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process, the same encoding and error handler are used to encode and
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decode data from/to the operating system.
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The ``os.fsdecode()`` and ``os.fsencode()`` functions can be used to
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decode and encode operating system data. These functions use the
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filesystem error handler: ``sys.getfilesystemencodeerrors()``.
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.. note::
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In some corner case, the *current* ``LC_CTYPE`` locale must be used
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instead of ``sys.getfilesystemencoding()``. For example, the ``time``
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module uses the *current* ``LC_CTYPE`` locale to decode timezone
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names.
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The POSIX locale and its encoding
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---------------------------------
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The following environment variables are used to configure the locale, in
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this preference order:
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* ``LC_ALL``, most important variable
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* ``LC_CTYPE``
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* ``LANG``
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The POSIX locale,also known as "the C locale", is used:
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* if the first set variable is set to ``"C"``
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* if all these variables are unset, for example when a program is
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started in an empty environment.
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The encoding of the POSIX locale must be ASCII or a superset of ASCII.
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On Linux, the POSIX locale uses the ASCII encoding.
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On FreeBSD and Solaris, ``nl_langinfo(CODESET)`` announces an alias of
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the ASCII encoding, whereas ``mbstowcs()`` and ``wcstombs()`` functions
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use the ISO 8859-1 encoding (Latin1) in practice. The problem is that
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``os.fsencode()`` and ``os.fsdecode()`` use
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``locale.getpreferredencoding()`` codec. For example, if command line
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arguments are decoded by ``mbstowcs()`` and encoded back by
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``os.fsencode()``, an ``UnicodeEncodeError`` exception is raised instead
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of retrieving the original byte string.
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To fix this issue, Python checks since Python 3.4 if ``mbstowcs()``
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really uses the ASCII encoding if the the ``LC_CTYPE`` uses the the
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POSIX locale and ``nl_langinfo(CODESET)`` returns ``"ASCII"`` (or an
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alias to ASCII). If not (the effective encoding is not ASCII), Python
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uses its own ASCII codec instead of using ``mbstowcs()`` and
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``wcstombs()`` functions for `operating system data`_.
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See the `POSIX locale (2016 Edition)
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<http://pubs.opengroup.org/onlinepubs/9699919799/basedefs/V1_chap07.html>`_.
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POSIX locale used by mistake
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----------------------------
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In many cases, the POSIX locale is not really expected by users who get
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it by mistake. Examples:
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* program started in an empty environment
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* User forcing LANG=C to get messages in english
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* LANG=C used for bad reasons, without being aware of the ASCII encoding
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* SSH shell
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* Linux installed with no configured locale
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* chroot environment, Docker image, container, ... with no locale is
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configured
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* User locale set to a non-existing locale, typo in the locale name for
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example
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C.UTF-8 and C.utf8 locales
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--------------------------
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Some UNIX operating systems provide a variant of the POSIX locale using
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the UTF-8 encoding:
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* Fedora 25: ``"C.utf8"`` or ``"C.UTF-8"``
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* Debian (eglibc 2.13-1, 2011), Ubuntu: ``"C.UTF-8"``
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* HP-UX: ``"C.utf8"``
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It was proposed to add a ``C.UTF-8`` locale to the glibc: `glibc C.UTF-8
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proposal <https://sourceware.org/glibc/wiki/Proposals/C.UTF-8>`_.
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It is not planned to add such locale to BSD systems.
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Popularity of the UTF-8 encoding
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--------------------------------
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Python 3 uses UTF-8 by default for Python source files.
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On Mac OS X, Windows and Android, Python always use UTF-8 for operating
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system data. For Windows, see the `PEP 529`_: "Change Windows filesystem
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encoding to UTF-8".
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On Linux, UTF-8 became the de facto standard encoding,
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replacing legacy encodings like ISO 8859-1 or ShiftJIS. For example,
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using different encodings for filenames and standard streams is likely
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to create mojibake, so UTF-8 is now used *everywhere*.
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The UTF-8 encoding is the default encoding of XML and JSON file format.
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In January 2017, UTF-8 was used in `more than 88% of web pages
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<https://w3techs.com/technologies/details/en-utf8/all/all>`_ (HTML,
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Javascript, CSS, etc.).
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See `utf8everywhere.org <http://utf8everywhere.org/>`_ for more general
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information on the UTF-8 codec.
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.. note::
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Some applications and operating systems (especially Windows) use Byte
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Order Markers (BOM) to indicate the used Unicode encoding: UTF-7,
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UTF-8, UTF-16-LE, etc. BOM are not well supported and rarely used in
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Python.
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Old data stored in different encodings and surrogateescape
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----------------------------------------------------------
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Even if UTF-8 became the de facto standard, there are still systems in
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the wild which don't use UTF-8. And there are a lot of data stored in
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different encodings. For example, an old USB key using the ext3
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filesystem with filenames encoded to ISO 8859-1.
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The Linux kernel and the libc don't decode filenames: a filename is used
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as a raw array of bytes. The common solution to support any filename is
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to store filenames as bytes and don't try to decode them. When displayed
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to stdout, mojibake is displayed if the filename and the terminal don't
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use the same encoding.
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Python 3 promotes Unicode everywhere including filenames. A solution to
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support filenames not decodable from the locale encoding was found: the
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``surrogateescape`` error handler (`PEP 383`_), store undecodable bytes
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as surrogate characters. This error handler is used by default for
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`operating system data`_, by ``os.fsdecode()`` and ``os.fsencode()`` for
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example (except on Windows which uses the ``strict`` error handler).
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Standard streams
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----------------
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Python uses the locale encoding for standard streams: stdin, stdout and
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stderr. The ``strict`` error handler is used by stdin and stdout to
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prevent mojibake.
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The ``backslashreplace`` error handler is used by stderr to avoid
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Unicode encode error when displaying non-ASCII text. It is especially
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useful when the POSIX locale is used, because this locale usually uses
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the ASCII encoding.
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The problem is that `operating system data`_ like filenames are decoded
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using the ``surrogateescape`` error handler (`PEP 383`_). Displaying a
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filename to stdout raises a Unicode encode error if the filename
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contains an undecoded byte stored as a surrogate character.
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Python 3.6 now uses ``surrogateescape`` for stdin and stdout if the
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POSIX locale is used: `issue #19977
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<http://bugs.python.org/issue19977>`_. The idea is to passthrough
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`operating system data`_ even if it means mojibake, because most UNIX
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applications work like that. Most UNIX applications store filenames as
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bytes, usually simply because bytes are first-citizen class in the used
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programming language, whereas Unicode is badly supported.
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.. note::
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The encoding and/or the error handler of standard streams can be
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overriden with the ``PYTHONIOENCODING`` environment variable.
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Proposal
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========
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Changes
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-------
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Add a new UTF-8 mode, disabled by default, to ignore the locale and
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force the usage of the UTF-8 encoding with the ``surrogateescape`` error
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handler, instead using the locale encoding (with ``strict`` or
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``surrogateescape`` error handler depending on the case).
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|
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Basically, the UTF-8 mode behaves as Python 2: it "just works" and don't
|
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bother users with encodings, but it can produce mojibake. It can be
|
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configured as strict to prevent mojibake: the UTF-8 encoding is used
|
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with the ``strict`` error handler for inputs and outputs, but the
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``surrogateescape`` error handler is still used for `operating system
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data`_.
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New ``-X utf8`` command line option and ``PYTHONUTF8`` environment
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variable are added to control the UTF-8 mode. The UTF-8 mode is enabled
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by ``-X utf8`` or ``PYTHONUTF8=1``. The UTF-8 is configured as strict
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by ``-X utf8=strict`` or ``PYTHONUTF8=strict``. Other option values fail
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with an error.
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The POSIX locale enables the UTF-8 mode. In this case, the UTF-8 mode
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can be explicitly disabled by ``-X utf8=0`` or ``PYTHONUTF8=0``.
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Options priority for the UTF-8 mode:
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* ``PYTHONLEGACYWINDOWSFSENCODING``
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* ``-X utf8``
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* ``PYTHONUTF8``
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* POSIX locale
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For example, ``PYTHONUTF8=0 python3 -X utf8`` enables the UTF-8 mode,
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whereas ``LC_ALL=C python3.7 -X utf8=0`` disables the UTF-8 mode and so
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use the encoding of the POSIX locale.
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Encodings used by ``open()``, highest priority first:
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* *encoding* and *errors* parameters (if set)
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* UTF-8 mode
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* os.device_encoding(fd)
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* os.getpreferredencoding(False)
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Encoding and error handler
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--------------------------
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The UTF-8 mode changes the default encoding and error handler used by
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open(), os.fsdecode(), os.fsencode(), sys.stdin, sys.stdout and
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sys.stderr:
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============================ ======================= ========================== ==========================
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Function Default UTF-8 mode or POSIX locale UTF-8 Strict mode
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============================ ======================= ========================== ==========================
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open() locale/strict **UTF-8/surrogateescape** **UTF-8**/strict
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os.fsdecode(), os.fsencode() locale/surrogateescape **UTF-8**/surrogateescape **UTF-8**/surrogateescape
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sys.stdin, sys.stdout locale/strict **UTF-8/surrogateescape** **UTF-8**/strict
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sys.stderr locale/backslashreplace **UTF-8**/backslashreplace **UTF-8**/backslashreplace
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============================ ======================= ========================== ==========================
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By comparison, Python 3.6 uses:
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============================ ======================= ==========================
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Function Default POSIX locale
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============================ ======================= ==========================
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open() locale/strict locale/strict
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os.fsdecode(), os.fsencode() locale/surrogateescape locale/surrogateescape
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sys.stdin, sys.stdout locale/strict locale/**surrogateescape**
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sys.stderr locale/backslashreplace locale/backslashreplace
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============================ ======================= ==========================
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The UTF-8 mode uses the ``surrogateescape`` error handler instead of the
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strict mode for convenience: the idea is that data not encoded to UTF-8
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are passed through "Python" without being modified, as raw bytes.
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The ``PYTHONIOENCODING`` environment variable has the priority over the
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UTF-8 mode for standard streams. For example, ``PYTHONIOENCODING=latin1
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python3 -X utf8`` uses the Latin1 encoding for stdin, stdout and stderr.
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Encoding and error handler on Windows
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-------------------------------------
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On Windows, the encodings and error handlers are different:
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============================ ======================= ========================== ========================== ==========================
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Function Default Legacy Windows FS encoding UTF-8 mode UTF-8 Strict mode
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============================ ======================= ========================== ========================== ==========================
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open() mbcs/strict mbcs/strict **UTF-8/surrogateescape** **UTF-8**/strict
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os.fsdecode(), os.fsencode() UTF-8/surrogatepass **mbcs/replace** UTF-8/surrogatepass UTF-8/surrogatepass
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sys.stdin, sys.stdout UTF-8/surrogateescape UTF-8/surrogateescape UTF-8/surrogateescape **UTF-8/strict**
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sys.stderr UTF-8/backslashreplace UTF-8/backslashreplace UTF-8/backslashreplace UTF-8/backslashreplace
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============================ ======================= ========================== ========================== ==========================
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By comparison, Python 3.6 uses:
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============================ ======================= ==========================
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Function Default Legacy Windows FS encoding
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============================ ======================= ==========================
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open() mbcs/strict mbcs/strict
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os.fsdecode(), os.fsencode() UTF-8/surrogatepass **mbcs/replace**
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sys.stdin, sys.stdout UTF-8/surrogateescape UTF-8/surrogateescape
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sys.stderr UTF-8/backslashreplace UTF-8/backslashreplace
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============================ ======================= ==========================
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The "Legacy Windows FS encoding" is enabled by setting the
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``PYTHONLEGACYWINDOWSFSENCODING`` environment variable to ``1``, see the
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`PEP 529`.
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Enabling the legacy Windows filesystem encoding disables the UTF-8 mode
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(as ``-X utf8=0``).
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If stdin and/or stdout is redirected to a pipe, sys.stdin and/or
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sys.output uses ``mbcs`` encoding by default, rather than UTF-8. But
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with the UTF-8 mode, sys.stdin and sys.stdout always use the UTF-8
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encoding.
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There is no POSIX locale on Windows. The ANSI code page is used to the
|
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locale encoding, and this code page never uses the ASCII encoding.
|
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Rationale
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---------
|
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|
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The UTF-8 mode is disabled by default to keep hard Unicode errors when
|
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encoding or decoding `operating system data`_ failed, and to keep the
|
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backward compatibility. The user is responsible to enable explicitly the
|
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UTF-8 mode, and so is better prepared for mojibake than if the UTF-8
|
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mode would be enabled *by default*.
|
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|
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The UTF-8 mode should be used on systems known to be configured with
|
||
UTF-8 where most applications speak UTF-8. It prevents Unicode errors if
|
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the user overrides a locale *by mistake* or if a Python program is
|
||
started with no locale configured (and so with the POSIX locale).
|
||
|
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Most UNIX applications handle `operating system data`_ as bytes, so
|
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``LC_ALL``, ``LC_CTYPE`` and ``LANG`` environment variables have a
|
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limited impact on how these data are handled by the application.
|
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|
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The Python UTF-8 mode should help to make Python more interoperable with
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the other UNIX applications in the system assuming that *UTF-8* is used
|
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everywhere and that users *expect* UTF-8.
|
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|
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Ignoring ``LC_ALL``, ``LC_CTYPE`` and ``LANG`` environment variables in
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Python is more convenient, since they are more commonly misconfigured
|
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*by mistake* (configured to use an encoding different than UTF-8,
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whereas the system uses UTF-8), rather than being misconfigured by
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intent.
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Expected mojibake and surrogate character issues
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------------------------------------------------
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The UTF-8 mode only affects code running directly in Python, especially
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code written in pure Python. The other code, called "external code"
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here, is not aware of this mode. Examples:
|
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|
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* C libraries called by Python modules like OpenSSL
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* The application code when Python is embedded in an application
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In the UTF-8 mode, Python uses the ``surrogateescape`` error handler
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which stores bytes not decodable from UTF-8 as surrogate characters.
|
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If the external code uses the locale and the locale encoding is UTF-8,
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it should work fine.
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|
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External code using bytes
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^^^^^^^^^^^^^^^^^^^^^^^^^
|
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If the external code process data as bytes, surrogate characters are not
|
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an issue since they are only used inside Python. Python encodes back
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surrogate characters to bytes at the edges, before calling external
|
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code.
|
||
|
||
The UTF-8 mode can produce mojibake since Python and external code don't
|
||
both of invalid bytes, but it's a deliberate choice. The UTF-8 mode can
|
||
be configured as strict to prevent mojibake and be fail early when data
|
||
is not decodable from UTF-8 or not encodable to UTF-8.
|
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|
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External code using text
|
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^^^^^^^^^^^^^^^^^^^^^^^^
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If the external code uses text API, for example using the ``wchar_t*`` C
|
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type, mojibake should not occur, but the external code can fail on
|
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surrogate characters.
|
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|
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|
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Use Cases
|
||
=========
|
||
|
||
The following use cases were written to help to understand the impact of
|
||
chosen encodings and error handlers on concrete examples.
|
||
|
||
The "Always work" results were written to prove the benefit of having a
|
||
UTF-8 mode which works with any data and any locale, compared to the
|
||
existing old Python versions.
|
||
|
||
The "Mojibake" column shows that ignoring the locale causes a pratical
|
||
issue: the UTF-8 mode produces mojibake if the terminal doesn't use the
|
||
UTF-8 encoding.
|
||
|
||
List a directory into stdout
|
||
----------------------------
|
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|
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Script listing the content of the current directory into stdout::
|
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|
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import os
|
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for name in os.listdir(os.curdir):
|
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print(name)
|
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|
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Result:
|
||
|
||
======================== ============ =========
|
||
Python Always work? Mojibake?
|
||
======================== ============ =========
|
||
Python 2 **Yes** **Yes**
|
||
Python 3 No No
|
||
Python 3.5, POSIX locale **Yes** **Yes**
|
||
UTF-8 mode **Yes** **Yes**
|
||
UTF-8 Strict mode No No
|
||
======================== ============ =========
|
||
|
||
"No" means that the script can fail on decoding or encoding a filename
|
||
depending on the locale or the filename.
|
||
|
||
To be able to always work, the program must be able to produce mojibake.
|
||
Mojibake is more user friendly than an error with a truncated or empty
|
||
output.
|
||
|
||
Example with a directory which contains the file called ``b'xxx\xff'``
|
||
(the byte ``0xFF`` is invalid in UTF-8).
|
||
|
||
Default and UTF-8 Strict mode fail on ``print()`` with an encode error::
|
||
|
||
$ python3.7 ../ls.py
|
||
Traceback (most recent call last):
|
||
File "../ls.py", line 5, in <module>
|
||
print(name)
|
||
UnicodeEncodeError: 'utf-8' codec can't encode character '\udcff' ...
|
||
|
||
$ python3.7 -X utf8=strict ../ls.py
|
||
Traceback (most recent call last):
|
||
File "../ls.py", line 5, in <module>
|
||
print(name)
|
||
UnicodeEncodeError: 'utf-8' codec can't encode character '\udcff' ...
|
||
|
||
The UTF-8 mode, POSIX locale, Python 2 and the UNIX ``ls`` command work
|
||
but display mojibake::
|
||
|
||
$ python3.7 -X utf8 ../ls.py
|
||
xxx<78>
|
||
|
||
$ LC_ALL=C /python3.6 ../ls.py
|
||
xxx<78>
|
||
|
||
$ python2 ../ls.py
|
||
xxx<78>
|
||
|
||
$ ls
|
||
'xxx'$'\377'
|
||
|
||
|
||
List a directory into a text file
|
||
---------------------------------
|
||
|
||
Similar to the previous example, except that the listing is written into
|
||
a text file::
|
||
|
||
import os
|
||
names = os.listdir(os.curdir)
|
||
with open("/tmp/content.txt", "w") as fp:
|
||
for name in names:
|
||
fp.write("%s\n" % name)
|
||
|
||
Result:
|
||
|
||
======================== ============ =========
|
||
Python Always work? Mojibake?
|
||
======================== ============ =========
|
||
Python 2 **Yes** **Yes**
|
||
Python 3 No No
|
||
Python 3.5, POSIX locale No No
|
||
UTF-8 mode **Yes** **Yes**
|
||
UTF-8 Strict mode No No
|
||
======================== ============ =========
|
||
|
||
"Yes" involves that mojibake can be produced. "No" means that the script
|
||
can fail on decoding or encoding a filename depending on the locale or
|
||
the filename. Typical error::
|
||
|
||
$ LC_ALL=C python3 test.py
|
||
Traceback (most recent call last):
|
||
File "test.py", line 5, in <module>
|
||
fp.write("%s\n" % name)
|
||
UnicodeEncodeError: 'ascii' codec can't encode characters in position 0-1: ordinal not in range(128)
|
||
|
||
|
||
Display Unicode characters into stdout
|
||
--------------------------------------
|
||
|
||
Very basic example used to illustrate a common issue, display the euro sign
|
||
(U+20AC: €)::
|
||
|
||
print("euro: \u20ac")
|
||
|
||
Result:
|
||
|
||
======================== ============ =========
|
||
Python Always work? Mojibake?
|
||
======================== ============ =========
|
||
Python 2 No No
|
||
Python 3 No No
|
||
Python 3.5, POSIX locale No No
|
||
UTF-8 mode **Yes** **Yes**
|
||
UTF-8 Strict mode **Yes** **Yes**
|
||
======================== ============ =========
|
||
|
||
The UTF-8 and UTF-8 Strict modes will always encode the euro sign as
|
||
UTF-8. If the terminal uses a different encoding, we get mojibake.
|
||
|
||
|
||
Replace a word in a text
|
||
------------------------
|
||
|
||
The following scripts replaces the word "apple" with "orange". It
|
||
reads input from stdin and writes the output into stdout::
|
||
|
||
import sys
|
||
text = sys.stdin.read()
|
||
sys.stdout.write(text.replace("apple", "orange"))
|
||
|
||
Result:
|
||
|
||
======================== ============ =========
|
||
Python Always work? Mojibake?
|
||
======================== ============ =========
|
||
Python 2 **Yes** **Yes**
|
||
Python 3 No No
|
||
Python 3.5, POSIX locale **Yes** **Yes**
|
||
UTF-8 mode **Yes** **Yes**
|
||
UTF-8 Strict mode No No
|
||
======================== ============ =========
|
||
|
||
Producer-consumer model using pipes
|
||
-----------------------------------
|
||
|
||
Let's say that we have a "producer" program which writes data into its
|
||
stdout and a "consumer" program which reads data from its stdin.
|
||
|
||
On a shell, such programs are run with the command::
|
||
|
||
producer | consumer
|
||
|
||
The question if these programs will work with any data and any locale.
|
||
UNIX users don't expect Unicode errors, and so expect that such programs
|
||
"just works".
|
||
|
||
If the producer only produces ASCII output, no error should occur. Let's
|
||
say the that producer writes at least one non-ASCII character (at least
|
||
one byte in the range ``0x80..0xff``).
|
||
|
||
To simplify the problem, let's say that the consumer has no output
|
||
(don't write result into a file or stdout).
|
||
|
||
A "Bytes producer" is an application which cannot fail with a Unicode
|
||
error and produces bytes into stdout.
|
||
|
||
Let's say that a "Bytes consumer" does not decode stdin but stores data
|
||
as bytes: such consumer always work. Common UNIX command line tools like
|
||
``cat``, ``grep`` or ``sed`` are in this category. Many Python 2
|
||
applications are also in this category.
|
||
|
||
"Python producer" and "Python consumer" are producer and consumer
|
||
implemented in Python.
|
||
|
||
Bytes producer, Bytes consumer
|
||
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
||
|
||
It always work, but it is out of the scope of this PEP since it doesn't
|
||
involve Python.
|
||
|
||
Python producer, Bytes consumer
|
||
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
||
|
||
Python producer::
|
||
|
||
print("euro: \u20ac")
|
||
|
||
Result:
|
||
|
||
======================== ============ =========
|
||
Python Always work? Mojibake?
|
||
======================== ============ =========
|
||
Python 2 No No
|
||
Python 3 No No
|
||
Python 3.5, POSIX locale No No
|
||
UTF-8 mode **Yes** **Yes**
|
||
UTF-8 Strict mode No No
|
||
======================== ============ =========
|
||
|
||
The question here is not if the consumer is able to decode the input,
|
||
but if Python is able to produce its ouput. So it's similar to the
|
||
`Display Unicode characters into stdout`_ case.
|
||
|
||
UTF-8 modes work with any locale since the consumer doesn't try to
|
||
decode its stdin.
|
||
|
||
Bytes producer, Python consumer
|
||
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
||
|
||
Python consumer::
|
||
|
||
import sys
|
||
text = sys.stdin.read()
|
||
result = text.replace("apple", "orange")
|
||
# ignore the result
|
||
|
||
Result:
|
||
|
||
======================== ============ =========
|
||
Python Always work? Mojibake?
|
||
======================== ============ =========
|
||
Python 2 **Yes** **Yes**
|
||
Python 3 No No
|
||
Python 3.5, POSIX locale **Yes** **Yes**
|
||
UTF-8 mode **Yes** **Yes**
|
||
UTF-8 Strict mode No No
|
||
======================== ============ =========
|
||
|
||
Python 3 fails on decoding stdin depending on the input and the locale.
|
||
|
||
|
||
Python producer, Python consumer
|
||
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
||
|
||
Python producer::
|
||
|
||
print("euro: \u20ac")
|
||
|
||
Python consumer::
|
||
|
||
import sys
|
||
text = sys.stdin.read()
|
||
result = text.replace("apple", "orange")
|
||
# ignore the result
|
||
|
||
Result, same Python version used for the producer and the consumer:
|
||
|
||
======================== ============ =========
|
||
Python Always work? Mojibake?
|
||
======================== ============ =========
|
||
Python 2 No No
|
||
Python 3 No No
|
||
Python 3.5, POSIX locale No No
|
||
UTF-8 mode **Yes** **Yes**
|
||
UTF-8 Strict mode No No
|
||
======================== ============ =========
|
||
|
||
This case combines a Python producer with a Python consumer, so the
|
||
result is the subset of `Python producer, Bytes consumer`_ and `Bytes
|
||
producer, Python consumer`_.
|
||
|
||
|
||
Backward Compatibility
|
||
======================
|
||
|
||
The main backward incompatible change is that the UTF-8 encoding is now
|
||
used by default if the locale is POSIX. Since the UTF-8 encoding is used
|
||
with the ``surrogateescape`` error handler, encoding errors should not
|
||
occur and so the change should not break applications.
|
||
|
||
The more likely source of trouble comes from external libraries. Python
|
||
can decode successfully data from UTF-8, but a library using the locale
|
||
encoding can fail to encode the decoded text back to bytes. Hopefully,
|
||
encoding text in a library is a rare operation. Very few libraries
|
||
expect text, most libraries expect bytes and even manipulate bytes
|
||
internally.
|
||
|
||
The PEP only changes the default behaviour if the locale is POSIX. For
|
||
other locales, the *default* behaviour is unchanged.
|
||
|
||
|
||
Alternatives
|
||
============
|
||
|
||
Don't modify the encoding of the POSIX locale
|
||
---------------------------------------------
|
||
|
||
A first version of the PEP did not change the encoding and error handler
|
||
used of the POSIX locale.
|
||
|
||
The problem is that adding the ``-X utf8`` command line option or
|
||
setting the ``PYTHONUTF8`` environment variable is not possible in some
|
||
cases, or at least not convenient.
|
||
|
||
Moreover, many users simply expect that Python 3 behaves as Python 2:
|
||
don't bother them with encodings and "just works" in all cases. These
|
||
users don't worry about mojibake, or even expect mojibake because of
|
||
complex documents using multiple incompatibles encodings.
|
||
|
||
|
||
Always use UTF-8
|
||
----------------
|
||
|
||
Python already always use the UTF-8 encoding on Mac OS X, Android and
|
||
Windows. Since UTF-8 became the de facto encoding, it makes sense to
|
||
always use it on all platforms with any locale.
|
||
|
||
The risk is to introduce mojibake if the locale uses a different
|
||
encoding, especially for locales other than the POSIX locale.
|
||
|
||
|
||
Force UTF-8 for the POSIX locale
|
||
--------------------------------
|
||
|
||
An alternative to always using UTF-8 in any case is to only use UTF-8 when the
|
||
``LC_CTYPE`` locale is the POSIX locale.
|
||
|
||
The `PEP 538`_ "Coercing the legacy C locale to C.UTF-8" of Nick
|
||
Coghlan proposes to implement that using the ``C.UTF-8`` locale.
|
||
|
||
|
||
Use the strict error handler for operating system data
|
||
------------------------------------------------------
|
||
|
||
Using the ``surrogateescape`` error handler for `operating system data`_
|
||
creates surprising surrogate characters. No Python codec (except of
|
||
``utf-7``) accept surrogates, and so encoding text coming from the
|
||
operating system is likely to raise an error error. The problem is that
|
||
the error comes late, very far from where the data was read.
|
||
|
||
The ``strict`` error handler can be used instead to decode
|
||
(``os.fsdecode()``) and encode (``os.fsencode()``) operating system
|
||
data, to raise encoding errors as soon as possible. It helps to find
|
||
bugs more quickly.
|
||
|
||
The main drawback of this strategy is that it doesn't work in practice.
|
||
Python 3 is designed on top on Unicode strings. Most functions expect
|
||
Unicode and produce Unicode. Even if many operating system functions
|
||
have two flavors, bytes and Unicode, the Unicode flavar is used is most
|
||
cases. There are good reasons for that: Unicode is more convenient in
|
||
Python 3 and using Unicode helps to support the full Unicode Character
|
||
Set (UCS) on Windows (even if Python now uses UTF-8 since Python 3.6,
|
||
see the `PEP 528`_ and the `PEP 529`_).
|
||
|
||
For example, if ``os.fsdecode()`` uses ``utf8/strict``,
|
||
``os.listdir(str)`` fails to list filenames of a directory if a single
|
||
filename is not decodable from UTF-8. As a consequence,
|
||
``shutil.rmtree(str)`` fails to remove a directory. Undecodable
|
||
filenames, environment variables, etc. are simply too common to make
|
||
this alternative viable.
|
||
|
||
|
||
Links
|
||
=====
|
||
|
||
PEPs:
|
||
|
||
* `PEP 538 <https://www.python.org/dev/peps/pep-0538/>`_:
|
||
"Coercing the legacy C locale to C.UTF-8"
|
||
* `PEP 529 <https://www.python.org/dev/peps/pep-0529/>`_:
|
||
"Change Windows filesystem encoding to UTF-8"
|
||
* `PEP 528 <https://www.python.org/dev/peps/pep-0528/>`_:
|
||
"Change Windows console encoding to UTF-8"
|
||
* `PEP 383 <https://www.python.org/dev/peps/pep-0383/>`_:
|
||
"Non-decodable Bytes in System Character Interfaces"
|
||
|
||
Main Python issues:
|
||
|
||
* `Issue #29240: Implementation of the PEP 540: Add a new UTF-8 mode
|
||
<http://bugs.python.org/issue29240>`_
|
||
* `Issue #28180: sys.getfilesystemencoding() should default to utf-8
|
||
<http://bugs.python.org/issue28180>`_
|
||
* `Issue #19977: Use "surrogateescape" error handler for sys.stdin and
|
||
sys.stdout on UNIX for the C locale
|
||
<http://bugs.python.org/issue19977>`_
|
||
* `Issue #19847: Setting the default filesystem-encoding
|
||
<http://bugs.python.org/issue19847>`_
|
||
* `Issue #8622: Add PYTHONFSENCODING environment variable
|
||
<https://bugs.python.org/issue8622>`_: added but reverted because of
|
||
many issues, read the `Inconsistencies if locale and filesystem
|
||
encodings are different
|
||
<https://mail.python.org/pipermail/python-dev/2010-October/104509.html>`_
|
||
thread on the python-dev mailing list
|
||
|
||
Incomplete list of Python issues related to Unicode errors, especially
|
||
with the POSIX locale:
|
||
|
||
* 2016-12-22: `LANG=C python3 -c "import os; os.path.exists('\xff')"
|
||
<http://bugs.python.org/issue29042#msg283821>`_
|
||
* 2014-07-20: `issue #22016: Add a new 'surrogatereplace' output only error handler
|
||
<http://bugs.python.org/issue22016>`_
|
||
* 2014-04-27: `Issue #21368: Check for systemd locale on startup if current
|
||
locale is set to POSIX <http://bugs.python.org/issue21368>`_ -- read manually
|
||
/etc/locale.conf when the locale is POSIX
|
||
* 2014-01-21: `Issue #20329: zipfile.extractall fails in Posix shell with utf-8
|
||
filename
|
||
<http://bugs.python.org/issue20329>`_
|
||
* 2013-11-30: `Issue #19846: Python 3 raises Unicode errors with the C locale
|
||
<http://bugs.python.org/issue19846>`_
|
||
* 2010-05-04: `Issue #8610: Python3/POSIX: errors if file system encoding is None
|
||
<http://bugs.python.org/issue8610>`_
|
||
* 2013-08-12: `Issue #18713: Clearly document the use of PYTHONIOENCODING to
|
||
set surrogateescape <http://bugs.python.org/issue18713>`_
|
||
* 2013-09-27: `Issue #19100: Use backslashreplace in pprint
|
||
<http://bugs.python.org/issue19100>`_
|
||
* 2012-01-05: `Issue #13717: os.walk() + print fails with UnicodeEncodeError
|
||
<http://bugs.python.org/issue13717>`_
|
||
* 2011-12-20: `Issue #13643: 'ascii' is a bad filesystem default encoding
|
||
<http://bugs.python.org/issue13643>`_
|
||
* 2011-03-16: `issue #11574: TextIOWrapper should use UTF-8 by default for the
|
||
POSIX locale
|
||
<http://bugs.python.org/issue11574>`_, thread on python-dev:
|
||
`Low-Level Encoding Behavior on Python 3
|
||
<https://mail.python.org/pipermail/python-dev/2011-March/109361.html>`_
|
||
* 2010-04-26: `Issue #8533: regrtest: use backslashreplace error handler for
|
||
stdout <http://bugs.python.org/issue8533>`_, regrtest fails with Unicode
|
||
encode error if the locale is POSIX
|
||
|
||
Some issues are real bug in applications which must set explicitly the
|
||
encoding. Well, it just works in the common case (locale configured
|
||
correctly), so what? But the program "suddenly" fails when the POSIX
|
||
locale is used (probably for bad reasons). Such bug is not well
|
||
understood by users. Example of such issue:
|
||
|
||
* 2013-11-21: `pip: open() uses the locale encoding to parse Python
|
||
script, instead of the encoding cookie
|
||
<http://bugs.python.org/issue19685>`_ -- pip must use the encoding
|
||
cookie to read a Python source code file
|
||
* 2011-01-21: `IDLE 3.x can crash decoding recent file list
|
||
<http://bugs.python.org/issue10974>`_
|
||
|
||
|
||
Prior Art
|
||
=========
|
||
|
||
Perl has a ``-C`` command line option and a ``PERLUNICODE`` environment
|
||
varaible to force UTF-8: see `perlrun
|
||
<http://perldoc.perl.org/perlrun.html>`_. It is possible to configure
|
||
UTF-8 per standard stream, on input and output streams, etc.
|
||
|
||
|
||
Copyright
|
||
=========
|
||
|
||
This document has been placed in the public domain.
|