PEP: 540 Title: Add a new UTF-8 Mode Version: $Revision$ Last-Modified: $Date$ Author: Victor Stinner BDFL-Delegate: INADA Naoki Status: Final Type: Standards Track Content-Type: text/x-rst Created: 5-January-2016 Python-Version: 3.7 Resolution: https://mail.python.org/pipermail/python-dev/2017-December/151173.html Abstract ======== Add a new "UTF-8 Mode" to enhance Python's use of UTF-8. When UTF-8 Mode is active, Python will: * use the ``utf-8`` encoding, regardless of the locale currently set by the current platform, and * change the ``stdin`` and ``stdout`` error handlers to ``surrogateescape``. This mode is off by default, but is automatically activated when using the "POSIX" locale. Add the ``-X utf8`` command line option and ``PYTHONUTF8`` environment variable to control UTF-8 Mode. Rationale ========= Locale encoding and UTF-8 ------------------------- Python 3.6 uses the locale encoding for filenames, environment variables, standard streams, etc. The locale encoding is inherited from the locale; the encoding and the locale are tightly coupled. Many users inherit the ASCII encoding from the POSIX locale, aka the "C" locale, but are unable change the locale for various reasons. This encoding is very limited in term of Unicode support: any non-ASCII character is likely to cause trouble. It isn't always easy to get an accurate locale. Locales don't get the exact same name on different Linux distributions, FreeBSD, macOS, etc. And some locales, like the recent ``C.UTF-8`` locale, are only supported by a few platforms. The current locale can even vary on the *same* platform depending on context; for example, a SSH connection can use a different encoding than the filesystem or local terminal encoding on the same machine. On the flip side, Python 3.6 is already using UTF-8 by default on macOS, Android and Windows (:pep:`529`) for most functions -- although ``open()`` is a notable exception here. UTF-8 is also the default encoding of Python scripts, XML and JSON file formats. The Go programming language uses UTF-8 for all strings. UTF-8 support is nearly ubiquitous for data read and written by modern platforms. It also has excellent support in Python. The problem is simply that the locale is frequently misconfigured. An obvious solution suggests itself: ignore the locale encoding and use UTF-8. Passthough for undecodable bytes: surrogateescape ------------------------------------------------- When decoding bytes from UTF-8 using the default ``strict`` error handler, Python 3 raises a ``UnicodeDecodeError`` on the first undecodable byte. Unix command line tools like ``cat`` or ``grep`` and most Python 2 applications simply do not have this class of bugs: they don't decode data, but process data as a raw bytes sequence. Python 3 already has a solution to behave like Unix tools and Python 2: the ``surrogateescape`` error handler (:pep:`383`). It allows processing data as if it were bytes, but uses Unicode in practice; undecodable bytes are stored as surrogate characters. UTF-8 Mode sets the ``surrogateescape`` error handler for ``stdin`` and ``stdout``, since these streams as commonly associated to Unix command line tools. However, users have a different expectation on files. Files are expected to be properly encoded, and Python is expected to fail early when ``open()`` is called with the wrong options, like opening a JPEG picture in text mode. The ``open()`` default error handler remains ``strict`` for these reasons. No change by default for best backward compatibility ---------------------------------------------------- While UTF-8 is perfect in most cases, sometimes the locale encoding is actually the best encoding. This PEP changes the behaviour for the POSIX locale since this locale is usually equivalent to the ASCII encoding, whereas UTF-8 is a much better choice. It does not change the behaviour for other locales to prevent any risk or regression. As users are responsible to enable explicitly the new UTF-8 Mode for these other locales, they are responsible for any potential mojibake issues caused by UTF-8 Mode. Proposal ======== Add a new UTF-8 Mode to use the UTF-8 encoding, ignore the locale encoding, and change ``stdin`` and ``stdout`` error handlers to ``surrogateescape``. Add the new ``-X utf8`` command line option and ``PYTHONUTF8`` environment variable. Users can explicitly activate UTF-8 Mode with the command-line option ``-X utf8`` or by setting the environment variable ``PYTHONUTF8=1``. This mode is disabled by default and enabled by the POSIX locale. Users can explicitly disable UTF-8 Mode with the command-line option ``-X utf8=0`` or by setting the environment variable ``PYTHONUTF8=0``. For standard streams, the ``PYTHONIOENCODING`` environment variable has priority over UTF-8 Mode. On Windows, the ``PYTHONLEGACYWINDOWSFSENCODING`` environment variable (:pep:`529`) has the priority over UTF-8 Mode. Effects of UTF-8 Mode: * ``sys.getfilesystemencoding()`` returns ``'UTF-8'``. * ``locale.getpreferredencoding()`` returns ``UTF-8``; its *do_setlocale* argument, and the locale encoding, are ignored. * ``sys.stdin`` and ``sys.stdout`` error handler is set to ``surrogateescape``. Side effects: * ``open()`` uses the UTF-8 encoding by default. However, it still uses the ``strict`` error handler by default. * ``os.fsdecode()`` and ``os.fsencode()`` use the UTF-8 encoding. * Command line arguments, environment variables and filenames use the UTF-8 encoding. Relationship with the locale coercion (PEP 538) =============================================== The POSIX locale enables the locale coercion (:pep:`538`) and the UTF-8 mode (:pep:`540`). When the locale coercion is enabled, enabling the UTF-8 mode has no additional effect. The UTF-8 Mode has the same effect as locale coercion: * ``sys.getfilesystemencoding()`` returns ``'UTF-8'``, * ``locale.getpreferredencoding()`` returns ``UTF-8``, and * the ``sys.stdin`` and ``sys.stdout`` error handlers are set to ``surrogateescape``. These changes only affect Python code. But the locale coercion has additional effects: the ``LC_CTYPE`` environment variable and the ``LC_CTYPE`` locale are set to a UTF-8 locale like ``C.UTF-8``. One side effect is that non-Python code is also impacted by the locale coercion. The two PEPs are complementary. On platforms like Centos 7 where locale coercion is not supported, the POSIX locale only enables UTF-8 Mode. In this case, Python code uses the UTF-8 encoding and ignores the locale encoding, whereas non-Python code uses the locale encoding, which is usually ASCII for the POSIX locale. While the UTF-8 Mode is supported on all platforms and can be enabled with any locale, the locale coercion is not supported by all platforms and is restricted to the POSIX locale. The UTF-8 Mode has only an impact on Python child processes when the ``PYTHONUTF8`` environment variable is set to ``1``, whereas the locale coercion sets the ``LC_CTYPE`` environment variables which impacts all child processes. The benefit of the locale coercion approach is that it helps ensure that encoding handling in binary extension modules and child processes is consistent with Python's encoding handling. The upside of the UTF-8 Mode approach is that it allows an embedding application to change the interpreter's behaviour without having to change the process global locale settings. Backward Compatibility ====================== The only backward incompatible change is that the POSIX locale now enables the UTF-8 Mode by default: it will now use the UTF-8 encoding, ignore the locale encoding, and change ``stdin`` and ``stdout`` error handlers to ``surrogateescape``. Annex: Encodings And Error Handlers =================================== UTF-8 Mode changes the default encoding and error handler used by ``open()``, ``os.fsdecode()``, ``os.fsencode()``, ``sys.stdin``, ``sys.stdout`` and ``sys.stderr``. Encoding and error handler -------------------------- ============================ ======================= ========================== Function Default UTF-8 Mode or POSIX locale ============================ ======================= ========================== open() locale/strict **UTF-8**/strict os.fsdecode(), os.fsencode() locale/surrogateescape **UTF-8**/surrogateescape sys.stdin, sys.stdout locale/strict **UTF-8/surrogateescape** sys.stderr locale/backslashreplace **UTF-8**/backslashreplace ============================ ======================= ========================== By comparison, Python 3.6 uses: ============================ ======================= ========================== Function Default POSIX locale ============================ ======================= ========================== open() locale/strict locale/strict os.fsdecode(), os.fsencode() locale/surrogateescape locale/surrogateescape sys.stdin, sys.stdout locale/strict locale/**surrogateescape** sys.stderr locale/backslashreplace locale/backslashreplace ============================ ======================= ========================== Encoding and error handler on Windows ------------------------------------- On Windows, the encodings and error handlers are different: ============================ ======================= ========================== ========================== Function Default Legacy Windows FS encoding UTF-8 Mode ============================ ======================= ========================== ========================== open() mbcs/strict mbcs/strict **UTF-8**/strict os.fsdecode(), os.fsencode() UTF-8/surrogatepass **mbcs/replace** UTF-8/surrogatepass sys.stdin, sys.stdout UTF-8/surrogateescape UTF-8/surrogateescape UTF-8/surrogateescape sys.stderr UTF-8/backslashreplace UTF-8/backslashreplace UTF-8/backslashreplace ============================ ======================= ========================== ========================== By comparison, Python 3.6 uses: ============================ ======================= ========================== Function Default Legacy Windows FS encoding ============================ ======================= ========================== open() mbcs/strict mbcs/strict os.fsdecode(), os.fsencode() UTF-8/surrogatepass **mbcs/replace** sys.stdin, sys.stdout UTF-8/surrogateescape UTF-8/surrogateescape sys.stderr UTF-8/backslashreplace UTF-8/backslashreplace ============================ ======================= ========================== The "Legacy Windows FS encoding" is enabled by the ``PYTHONLEGACYWINDOWSFSENCODING`` environment variable. If stdin and/or stdout is redirected to a pipe, ``sys.stdin`` and/or ``sys.output`` uses ``mbcs`` encoding by default rather than UTF-8. But in UTF-8 Mode, ``sys.stdin`` and ``sys.stdout`` always use the UTF-8 encoding. .. note: There is no POSIX locale on Windows. The ANSI code page is used as the locale encoding, and this code page never uses the ASCII encoding. Links ===== * `bpo-29240: Implementation of the PEP 540: Add a new UTF-8 Mode `_ * `PEP 538 `_: "Coercing the legacy C locale to C.UTF-8" * `PEP 529 `_: "Change Windows filesystem encoding to UTF-8" * `PEP 528 `_: "Change Windows console encoding to UTF-8" * `PEP 383 `_: "Non-decodable Bytes in System Character Interfaces" Post History ============ * 2017-12: `[Python-Dev] PEP 540: Add a new UTF-8 Mode `_ * 2017-04: `[Python-Dev] Proposed BDFL Delegate update for PEPs 538 & 540 (assuming UTF-8 for *nix system boundaries) `_ * 2017-01: `[Python-ideas] PEP 540: Add a new UTF-8 Mode `_ * 2017-01: `bpo-28180: Implementation of the PEP 538: coerce C locale to C.utf-8 (msg284764) `_ * 2016-08-17: `bpo-27781: Change sys.getfilesystemencoding() on Windows to UTF-8 (msg272916) `_ -- Victor proposed ``-X utf8`` for the :pep:`529` (Change Windows filesystem encoding to UTF-8) Version History =============== * Version 4: ``locale.getpreferredencoding()`` now returns ``'UTF-8'`` in the UTF-8 Mode. * Version 3: The UTF-8 Mode does not change the ``open()`` default error handler (``strict``) anymore, and the Strict UTF-8 Mode has been removed. * Version 2: Rewrite the PEP from scratch to make it much shorter and easier to understand. * Version 1: First version posted to python-dev. Copyright ========= This document has been placed in the public domain.