2001-06-27 18:47:09 -04:00
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PEP: 261
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2001-06-27 19:12:08 -04:00
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Title: Support for "wide" Unicode characters
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Version: $Revision$
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2003-04-21 11:20:13 -04:00
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Last-Modified: $Date$
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2007-06-27 19:59:28 -04:00
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Author: Paul Prescod <paul@prescod.net>
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2003-04-21 11:20:13 -04:00
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Status: Final
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2001-06-27 18:47:09 -04:00
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Type: Standards Track
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Created: 27-Jun-2001
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2001-06-27 19:12:08 -04:00
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Python-Version: 2.2
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2001-06-27 18:47:09 -04:00
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Post-History: 27-Jun-2001
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Abstract
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2001-07-01 15:52:25 -04:00
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Python 2.1 unicode characters can have ordinals only up to 2**16 -1.
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This range corresponds to a range in Unicode known as the Basic
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Multilingual Plane. There are now characters in Unicode that live
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on other "planes". The largest addressable character in Unicode
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has the ordinal 17 * 2**16 - 1 (0x10ffff). For readability, we
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will call this TOPCHAR and call characters in this range "wide
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characters".
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Glossary
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Character
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Used by itself, means the addressable units of a Python
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Unicode string.
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Code point
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A code point is an integer between 0 and TOPCHAR.
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If you imagine Unicode as a mapping from integers to
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characters, each integer is a code point. But the
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integers between 0 and TOPCHAR that do not map to
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characters are also code points. Some will someday
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be used for characters. Some are guaranteed never
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to be used for characters.
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Codec
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A set of functions for translating between physical
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encodings (e.g. on disk or coming in from a network)
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into logical Python objects.
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Encoding
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Mechanism for representing abstract characters in terms of
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physical bits and bytes. Encodings allow us to store
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Unicode characters on disk and transmit them over networks
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in a manner that is compatible with other Unicode software.
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Surrogate pair
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Two physical characters that represent a single logical
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character. Part of a convention for representing 32-bit
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code points in terms of two 16-bit code points.
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Unicode string
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A Python type representing a sequence of code points with
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"string semantics" (e.g. case conversions, regular
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expression compatibility, etc.) Constructed with the
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unicode() function.
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2001-06-27 18:47:09 -04:00
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2001-06-27 19:12:08 -04:00
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2001-06-27 18:47:09 -04:00
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Proposed Solution
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2001-07-01 15:52:25 -04:00
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One solution would be to merely increase the maximum ordinal
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to a larger value. Unfortunately the only straightforward
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implementation of this idea is to use 4 bytes per character.
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This has the effect of doubling the size of most Unicode
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strings. In order to avoid imposing this cost on every
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user, Python 2.2 will allow the 4-byte implementation as a
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build-time option. Users can choose whether they care about
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wide characters or prefer to preserve memory.
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2001-06-27 19:12:08 -04:00
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The 4-byte option is called "wide Py_UNICODE". The 2-byte option
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is called "narrow Py_UNICODE".
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Most things will behave identically in the wide and narrow worlds.
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2001-07-01 15:52:25 -04:00
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* unichr(i) for 0 <= i < 2**16 (0x10000) always returns a
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length-one string.
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* unichr(i) for 2**16 <= i <= TOPCHAR will return a
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length-one string on wide Python builds. On narrow builds it will
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raise ValueError.
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ISSUE
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Python currently allows \U literals that cannot be
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represented as a single Python character. It generates two
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Python characters known as a "surrogate pair". Should this
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be disallowed on future narrow Python builds?
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Pro:
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Python already the construction of a surrogate pair
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for a large unicode literal character escape sequence.
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This is basically designed as a simple way to construct
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"wide characters" even in a narrow Python build. It is also
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somewhat logical considering that the Unicode-literal syntax
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is basically a short-form way of invoking the unicode-escape
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codec.
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Con:
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Surrogates could be easily created this way but the user
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still needs to be careful about slicing, indexing, printing
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etc. Therefore, some have suggested that Unicode
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2001-07-01 15:52:25 -04:00
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literals should not support surrogates.
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ISSUE
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2001-06-27 18:47:09 -04:00
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2001-07-01 15:52:25 -04:00
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Should Python allow the construction of characters that do
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not correspond to Unicode code points? Unassigned Unicode
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code points should obviously be legal (because they could
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be assigned at any time). But code points above TOPCHAR are
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guaranteed never to be used by Unicode. Should we allow access
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to them anyhow?
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2001-06-27 18:47:09 -04:00
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2001-07-01 15:52:25 -04:00
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Pro:
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2001-06-27 18:47:09 -04:00
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2001-07-01 15:52:25 -04:00
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If a Python user thinks they know what they're doing why
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should we try to prevent them from violating the Unicode
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spec? After all, we don't stop 8-bit strings from
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containing non-ASCII characters.
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2001-06-27 18:47:09 -04:00
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Con:
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Codecs and other Unicode-consuming code will have to be
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careful of these characters which are disallowed by the
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Unicode specification.
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* ord() is always the inverse of unichr()
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2001-06-27 18:47:09 -04:00
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* There is an integer value in the sys module that describes the
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2001-07-01 15:52:25 -04:00
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largest ordinal for a character in a Unicode string on the current
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interpreter. sys.maxunicode is 2**16-1 (0xffff) on narrow builds
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of Python and TOPCHAR on wide builds.
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2001-06-27 18:47:09 -04:00
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2001-07-01 15:52:25 -04:00
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ISSUE: Should there be distinct constants for accessing
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TOPCHAR and the real upper bound for the domain of
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unichr (if they differ)? There has also been a
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suggestion of sys.unicodewidth which can take the
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values 'wide' and 'narrow'.
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2001-06-27 18:47:09 -04:00
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2001-07-01 15:52:25 -04:00
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* every Python Unicode character represents exactly one Unicode code
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point (i.e. Python Unicode Character = Abstract Unicode character).
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2001-07-01 15:52:25 -04:00
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* codecs will be upgraded to support "wide characters"
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(represented directly in UCS-4, and as variable-length sequences
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in UTF-8 and UTF-16). This is the main part of the implementation
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left to be done.
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2001-06-27 18:47:09 -04:00
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2001-07-01 15:52:25 -04:00
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* There is a convention in the Unicode world for encoding a 32-bit
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code point in terms of two 16-bit code points. These are known
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as "surrogate pairs". Python's codecs will adopt this convention
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and encode 32-bit code points as surrogate pairs on narrow Python
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builds.
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2001-06-27 19:12:08 -04:00
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2001-07-01 15:52:25 -04:00
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ISSUE
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2001-06-27 18:47:09 -04:00
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2001-07-01 15:52:25 -04:00
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Should there be a way to tell codecs not to generate
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surrogates and instead treat wide characters as
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errors?
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2001-06-27 18:47:09 -04:00
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2001-07-01 15:52:25 -04:00
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Pro:
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2001-07-01 15:52:25 -04:00
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I might want to write code that works only with
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fixed-width characters and does not have to worry about
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surrogates.
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2001-06-27 18:47:09 -04:00
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2001-07-01 15:52:25 -04:00
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Con:
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2001-06-27 18:47:09 -04:00
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2001-07-01 15:52:25 -04:00
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No clear proposal of how to communicate this to codecs.
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* there are no restrictions on constructing strings that use
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code points "reserved for surrogates" improperly. These are
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called "isolated surrogates". The codecs should disallow reading
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these from files, but you could construct them using string
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literals or unichr().
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Implementation
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2001-09-11 05:59:14 -04:00
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There is a new define:
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2001-07-01 15:52:25 -04:00
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2001-09-11 05:59:14 -04:00
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#define Py_UNICODE_SIZE 2
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To test whether UCS2 or UCS4 is in use, the derived macro
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Py_UNICODE_WIDE should be used, which is defined when UCS-4 is in
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use.
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2001-07-01 15:52:25 -04:00
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There is a new configure option:
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--enable-unicode=ucs2 configures a narrow Py_UNICODE, and uses
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wchar_t if it fits
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--enable-unicode=ucs4 configures a wide Py_UNICODE, and uses
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wchar_t if it fits
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--enable-unicode same as "=ucs2"
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--disable-unicode entirely remove the Unicode functionality.
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2001-07-01 15:52:25 -04:00
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It is also proposed that one day --enable-unicode will just
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default to the width of your platforms wchar_t.
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Windows builds will be narrow for a while based on the fact that
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there have been few requests for wide characters, those requests
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are mostly from hard-core programmers with the ability to buy
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their own Python and Windows itself is strongly biased towards
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16-bit characters.
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2001-06-27 19:12:08 -04:00
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2001-06-27 18:47:09 -04:00
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Notes
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2001-07-01 15:52:25 -04:00
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This PEP does NOT imply that people using Unicode need to use a
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4-byte encoding for their files on disk or sent over the network.
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It only allows them to do so. For example, ASCII is still a
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legitimate (7-bit) Unicode-encoding.
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2001-07-01 15:52:25 -04:00
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It has been proposed that there should be a module that handles
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surrogates in narrow Python builds for programmers. If someone
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wants to implement that, it will be another PEP. It might also be
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combined with features that allow other kinds of character-,
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word- and line- based indexing.
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2001-06-27 18:47:09 -04:00
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2001-07-01 15:52:25 -04:00
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Rejected Suggestions
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More or less the status-quo
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We could officially say that Python characters are 16-bit and
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require programmers to implement wide characters in their
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application logic by combining surrogate pairs. This is a heavy
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burden because emulating 32-bit characters is likely to be
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very inefficient if it is coded entirely in Python. Plus these
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abstracted pseudo-strings would not be legal as input to the
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regular expression engine.
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"Space-efficient Unicode" type
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Another class of solution is to use some efficient storage
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internally but present an abstraction of wide characters to
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the programmer. Any of these would require a much more complex
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implementation than the accepted solution. For instance consider
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the impact on the regular expression engine. In theory, we could
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move to this implementation in the future without breaking Python
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code. A future Python could "emulate" wide Python semantics on
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narrow Python. Guido is not willing to undertake the
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implementation right now.
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Two types
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We could introduce a 32-bit Unicode type alongside the 16-bit
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type. There is a lot of code that expects there to be only a
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single Unicode type.
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This PEP represents the least-effort solution. Over the next
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several years, 32-bit Unicode characters will become more common
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and that may either convince us that we need a more sophisticated
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solution or (on the other hand) convince us that simply
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mandating wide Unicode characters is an appropriate solution.
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Right now the two options on the table are do nothing or do
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this.
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2001-06-27 19:12:08 -04:00
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2001-07-01 15:52:25 -04:00
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References
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Unicode Glossary: http://www.unicode.org/glossary/
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2001-07-01 15:52:25 -04:00
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Copyright
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This document has been placed in the public domain.
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Local Variables:
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mode: indented-text
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indent-tabs-mode: nil
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End:
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