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314 lines
13 KiB
314 lines
13 KiB
2 weeks ago
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Metadata-Version: 2.1
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Name: Unidecode
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Version: 1.3.8
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Summary: ASCII transliterations of Unicode text
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Home-page: UNKNOWN
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Author: Tomaz Solc
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Author-email: tomaz.solc@tablix.org
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License: GPL
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Platform: UNKNOWN
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Classifier: License :: OSI Approved :: GNU General Public License v2 or later (GPLv2+)
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Classifier: Programming Language :: Python
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Classifier: Programming Language :: Python :: 3
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Classifier: Programming Language :: Python :: 3.5
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Classifier: Programming Language :: Python :: 3.6
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Classifier: Programming Language :: Python :: 3.7
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Classifier: Programming Language :: Python :: 3.8
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Classifier: Programming Language :: Python :: 3.9
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Classifier: Programming Language :: Python :: Implementation :: CPython
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Classifier: Programming Language :: Python :: Implementation :: PyPy
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Classifier: Topic :: Text Processing
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Classifier: Topic :: Text Processing :: Filters
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Requires-Python: >=3.5
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Unidecode, lossy ASCII transliterations of Unicode text
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=======================================================
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It often happens that you have text data in Unicode, but you need to
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represent it in ASCII. For example when integrating with legacy code that
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doesn't support Unicode, or for ease of entry of non-Roman names on a US
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keyboard, or when constructing ASCII machine identifiers from human-readable
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Unicode strings that should still be somewhat intelligible. A popular example
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of this is when making an URL slug from an article title.
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**Unidecode is not a replacement for fully supporting Unicode for strings in
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your program. There are a number of caveats that come with its use,
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especially when its output is directly visible to users. Please read the rest
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of this README before using Unidecode in your project.**
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In most of examples listed above you could represent Unicode characters as
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``???`` or ``\\15BA\\15A0\\1610``, to mention two extreme cases. But that's
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nearly useless to someone who actually wants to read what the text says.
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What Unidecode provides is a middle road: the function ``unidecode()`` takes
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Unicode data and tries to represent it in ASCII characters (i.e., the
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universally displayable characters between 0x00 and 0x7F), where the
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compromises taken when mapping between two character sets are chosen to be
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near what a human with a US keyboard would choose.
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The quality of resulting ASCII representation varies. For languages of
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western origin it should be between perfect and good. On the other hand
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transliteration (i.e., conveying, in Roman letters, the pronunciation
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expressed by the text in some other writing system) of languages like
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Chinese, Japanese or Korean is a very complex issue and this library does
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not even attempt to address it. It draws the line at context-free
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character-by-character mapping. So a good rule of thumb is that the further
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the script you are transliterating is from Latin alphabet, the worse the
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transliteration will be.
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Generally Unidecode produces better results than simply stripping accents from
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characters (which can be done in Python with built-in functions). It is based
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on hand-tuned character mappings that for example also contain ASCII
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approximations for symbols and non-Latin alphabets.
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**Note that some people might find certain transliterations offending.** Most
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common examples include characters that are used in multiple languages. A user
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expects a character to be transliterated in their language but Unidecode uses a
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transliteration for a different language. It's best to not use Unidecode for
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strings that are directly visible to users of your application. See also the
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*Frequently Asked Questions* section for more info on common problems.
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This is a Python port of ``Text::Unidecode`` Perl module by Sean M. Burke
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<sburke@cpan.org>.
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Module content
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--------------
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This library contains a function that takes a string object, possibly
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containing non-ASCII characters, and returns a string that can be safely
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encoded to ASCII::
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>>> from unidecode import unidecode
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>>> unidecode('kožušček')
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'kozuscek'
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>>> unidecode('30 \U0001d5c4\U0001d5c6/\U0001d5c1')
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'30 km/h'
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>>> unidecode('\u5317\u4EB0')
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'Bei Jing '
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You can also specify an *errors* argument to ``unidecode()`` that determines
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what Unidecode does with characters that are not present in its transliteration
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tables. The default is ``'ignore'`` meaning that Unidecode will ignore those
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characters (replace them with an empty string). ``'strict'`` will raise a
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``UnidecodeError``. The exception object will contain an *index* attribute that
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can be used to find the offending character. ``'replace'`` will replace them
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with ``'?'`` (or another string, specified in the *replace_str* argument).
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``'preserve'`` will keep the original, non-ASCII character in the string. Note
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that if ``'preserve'`` is used the string returned by ``unidecode()`` will not
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be ASCII-encodable!::
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>>> unidecode('\ue000') # unidecode does not have replacements for Private Use Area characters
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''
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>>> unidecode('\ue000', errors='strict')
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Traceback (most recent call last):
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...
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unidecode.UnidecodeError: no replacement found for character '\ue000' in position 0
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A utility is also included that allows you to transliterate text from the
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command line in several ways. Reading from standard input::
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$ echo hello | unidecode
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hello
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from a command line argument::
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$ unidecode -c hello
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hello
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or from a file::
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$ unidecode hello.txt
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hello
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The default encoding used by the utility depends on your system locale. You can
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specify another encoding with the ``-e`` argument. See ``unidecode --help`` for
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a full list of available options.
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Requirements
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------------
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Nothing except Python itself. Unidecode supports Python 3.5 or later.
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You need a Python build with "wide" Unicode characters (also called "UCS-4
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build") in order for Unidecode to work correctly with characters outside of
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Basic Multilingual Plane (BMP). Common characters outside BMP are bold, italic,
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script, etc. variants of the Latin alphabet intended for mathematical notation.
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Surrogate pair encoding of "narrow" builds is not supported in Unidecode.
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If your Python build supports "wide" Unicode the following expression will
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return True::
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>>> import sys
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>>> sys.maxunicode > 0xffff
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True
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See `PEP 261 <https://www.python.org/dev/peps/pep-0261/>`_ for details
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regarding support for "wide" Unicode characters in Python.
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Installation
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------------
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To install the latest version of Unidecode from the Python package index, use
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these commands::
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$ pip install unidecode
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To install Unidecode from the source distribution and run unit tests, use::
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$ python setup.py install
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$ python setup.py test
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Frequently asked questions
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--------------------------
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German umlauts are transliterated incorrectly
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Latin letters "a", "o" and "u" with diaeresis are transliterated by
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Unidecode as "a", "o", "u", *not* according to German rules "ae", "oe",
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"ue". This is intentional and will not be changed. Rationale is that these
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letters are used in languages other than German (for example, Finnish and
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Turkish). German text transliterated without the extra "e" is much more
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readable than other languages transliterated using German rules. A
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workaround is to do your own replacements of these characters before
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passing the string to ``unidecode()``.
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Japanese Kanji is transliterated as Chinese
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Same as with Latin letters with accents discussed in the answer above, the
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Unicode standard encodes letters, not letters in a certain language or
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their meaning. With Japanese and Chinese this is even more evident because
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the same letter can have very different transliterations depending on the
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language it is used in. Since Unidecode does not do language-specific
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transliteration (see next question), it must decide on one. For certain
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characters that are used in both Japanese and Chinese the decision was to
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use Chinese transliterations. If you intend to transliterate Japanese,
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Chinese or Korean text please consider using other libraries which do
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language-specific transliteration, such as `Unihandecode
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<https://github.com/miurahr/unihandecode>`_.
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Unidecode should support localization (e.g. a language or country parameter, inspecting system locale, etc.)
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Language-specific transliteration is a complicated problem and beyond the
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scope of this library. Changes related to this will not be accepted. Please
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consider using other libraries which do provide this capability, such as
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`Unihandecode <https://github.com/miurahr/unihandecode>`_.
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Unidecode should automatically detect the language of the text being transliterated
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Language detection is a completely separate problem and beyond the scope of
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this library.
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Unidecode should use a permissive license such as MIT or the BSD license.
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The maintainer of Unidecode believes that providing access to source code
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on redistribution is a fair and reasonable request when basing products on
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voluntary work of many contributors. If the license is not suitable for
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you, please consider using other libraries, such as `text-unidecode
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<https://github.com/kmike/text-unidecode>`_.
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Unidecode produces completely wrong results (e.g. "u" with diaeresis transliterating as "A 1/4 ")
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The strings you are passing to Unidecode have been wrongly decoded
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somewhere in your program. For example, you might be decoding utf-8 encoded
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strings as latin1. With a misconfigured terminal, locale and/or a text
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editor this might not be immediately apparent. Inspect your strings with
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``repr()`` and consult the
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`Unicode HOWTO <https://docs.python.org/3/howto/unicode.html>`_.
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Why does Unidecode not replace \\u and \\U backslash escapes in my strings?
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Unidecode knows nothing about escape sequences. Interpreting these sequences
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and replacing them with actual Unicode characters in string literals is the
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task of the Python interpreter. If you are asking this question you are
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very likely misunderstanding the purpose of this library. Consult the
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`Unicode HOWTO <https://docs.python.org/3/howto/unicode.html>`_ and possibly
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the ``unicode_escape`` encoding in the standard library.
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I've upgraded Unidecode and now some URLs on my website return 404 Not Found.
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This is an issue with the software that is running your website, not
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Unidecode. Occasionally, new versions of Unidecode library are released
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which contain improvements to the transliteration tables. This means that
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you cannot rely that ``unidecode()`` output will not change across
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different versions of Unidecode library. If you use ``unidecode()`` to
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generate URLs for your website, either generate the URL slug once and store
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it in the database or lock your dependency of Unidecode to one specific
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version.
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Some of the issues in this section are discussed in more detail in `this blog
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post <https://www.tablix.org/~avian/blog/archives/2013/09/python_unidecode_release_0_04_14/>`_.
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Performance notes
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-----------------
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By default, ``unidecode()`` optimizes for the use case where most of the strings
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passed to it are already ASCII-only and no transliteration is necessary (this
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default might change in future versions).
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For performance critical applications, two additional functions are exposed:
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``unidecode_expect_ascii()`` is optimized for ASCII-only inputs (approximately
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5 times faster than ``unidecode_expect_nonascii()`` on 10 character strings,
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more on longer strings), but slightly slower for non-ASCII inputs.
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``unidecode_expect_nonascii()`` takes approximately the same amount of time on
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ASCII and non-ASCII inputs, but is slightly faster for non-ASCII inputs than
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``unidecode_expect_ascii()``.
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Apart from differences in run time, both functions produce identical results.
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For most users of Unidecode, the difference in performance should be
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negligible.
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Source
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------
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You can get the latest development version of Unidecode with::
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$ git clone https://www.tablix.org/~avian/git/unidecode.git
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There is also an official mirror of this repository on GitHub at
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https://github.com/avian2/unidecode
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Contact
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-------
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Please make sure to read the `Frequently asked questions`_ section above before
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contacting the maintainer.
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Bug reports, patches and suggestions for Unidecode can be sent to
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tomaz.solc@tablix.org.
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Alternatively, you can also open a ticket or pull request at
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https://github.com/avian2/unidecode
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Copyright
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---------
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Original character transliteration tables:
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Copyright 2001, Sean M. Burke <sburke@cpan.org>, all rights reserved.
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Python code and later additions:
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Copyright 2024, Tomaž Šolc <tomaz.solc@tablix.org>
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This program is free software; you can redistribute it and/or modify it
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under the terms of the GNU General Public License as published by the Free
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Software Foundation; either version 2 of the License, or (at your option)
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any later version.
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This program is distributed in the hope that it will be useful, but WITHOUT
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ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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more details.
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You should have received a copy of the GNU General Public License along
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with this program; if not, write to the Free Software Foundation, Inc., 51
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Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. The programs and
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documentation in this dist are distributed in the hope that they will be
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useful, but without any warranty; without even the implied warranty of
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merchantability or fitness for a particular purpose.
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..
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vim: set filetype=rst:
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