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I am writing a script that will try encoding bytes into many different encodings in Python 2.6. Is there some way to get a list of available encodings that I can iterate over?

The reason I'm trying to do this is because a user has some text that is not encoded correctly. There are funny characters. I know the unicode character that's messing it up. I want to be able to give them an answer like "Your text editor is interpreting that string as X encoding, not Y encoding". I thought I would try to encode that character using one encoding, then decode it again using another encoding, and see if we get the same character sequence.

i.e. something like this:

for encoding1, encoding2 in itertools.permutation(encodinglist(), 2):
  try:
    unicode_string = my_unicode_character.encode(encoding1).decode(encoding2)
  except:
    pass
share|improve this question
    
Perhaps you should start a new question, giving details of what the actual problem is, including how you know what is the Unicode character that's messing it up, and what "messing it up" means, and what the "funny characters" are, etc etc. If the offending data is in a file, show the relevant part of the output of print repr(open('thefile.txt', 'rb').read()) –  John Machin Nov 16 '09 at 16:58
    
I needed this functionality when cleaning non-UTF filenames from a large file share. There was no telling what the original encoding for many files was... Some of these embedded "odd" single bytes didn't fit any code points in Windows-1252 or ISO-8859, and a useful way of guessing what set they came from was to get Python to convert the single byte to each encoding it can, and see if the result was reasonable. Then fix the filename. –  Joe Koberg Apr 15 '10 at 18:33
2  
For example b'Bj\x94rk' didn't fit ISO-8859-1 but after trying them all I see it fit CP850 or CP437. –  Joe Koberg Apr 15 '10 at 18:35

7 Answers 7

up vote 11 down vote accepted

Unfortunately encodings.aliases.aliases.keys() is NOT an appropriate answer.

aliases(as one would/should expect) contains several cases where different keys are mapped to the same value e.g. 1252 and windows_1252 are both mapped to cp1252. You could save time if instead of aliases.keys() you use set(aliases.values()).

BUT THERE'S A WORSE PROBLEM: aliases doesn't contain codecs that don't have aliases (like cp856, cp874, cp875, cp737, and koi8_u).

>>> from encodings.aliases import aliases
>>> def find(q):
...     return [(k,v) for k, v in aliases.items() if q in k or q in v]
...
>>> find('1252') # multiple aliases
[('1252', 'cp1252'), ('windows_1252', 'cp1252')]
>>> find('856') # no codepage 856 in aliases
[]
>>> find('koi8') # no koi8_u in aliases
[('cskoi8r', 'koi8_r')]
>>> 'x'.decode('cp856') # but cp856 is a valid codec
u'x'
>>> 'x'.decode('koi8_u') # but koi8_u is a valid codec
u'x'
>>>

It's also worth noting that however you obtain a full list of codecs, it may be a good idea to ignore the codecs that aren't about encoding/decoding character sets, but do some other transformation e.g. zlib, quopri, and base64.

Which brings us to the question of WHY you want to "try encoding bytes into many different encodings". If we know that, we may be able to steer you in the right direction.

For a start, that's ambiguous. One DEcodes bytes into unicode, and one ENcodes unicode into bytes. Which do you want to do?

What are you really trying to achieve: Are you trying to determine which codec to use to decode some incoming bytes, and plan to attempt this with all possible codecs? [note: latin1 will decode anything] Are you trying to determine the language of some unicode text by trying to encode it with all possible codecs? [note: utf8 will encode anything].

share|improve this answer
    
I've expanded the question with details of what I'm trying to achieve. –  Rory Nov 16 '09 at 15:47

You could use a technique to list all modules in the encodings package.

import pkgutil
import encodings

false_positives = set(["aliases"])

found = set(name for imp, name, ispkg in pkgutil.iter_modules(encodings.__path__) if not ispkg)
found.difference_update(false_positives)
print found
share|improve this answer
    
Seems to work, but note that as well as the standard encodings Python supports this also includes silly encodings like undefined (always throws an exception if you try to use it) and rot_13. I suggest just using the list of standard encodings from the docs instead. –  Mark Amery Aug 31 at 11:02

Maybe you should try using the Universal Encoding Detector (chardet) library instead of implementing it yourself.

>>> import chardet
>>> s = '\xe2\x98\x83' # ☃
>>> chardet.detect(s)
{'confidence': 0.505, 'encoding': 'utf-8'}
share|improve this answer

I doubt there is such method/functionality in codecs module, but if you see encoding/__init__.py, search function searches thru encodings modules folder, so you may do the same e.g.

>>> os.listdir(os.path.dirname(encodings.__file__))
['cp500.pyc', 'utf_16_le.py', 'gb18030.py', 'mbcs.pyc', 'undefined.pyc', 'idna.pyc', 'punycode.pyc', 'cp850.py', 'big5hkscs.pyc', 'mac_arabic.py', '__init__.pyc', 'string_escape.py', 'hz.py', 'cp037.py', 'cp737.py', 'iso8859_5.pyc', 'iso8859_13.pyc', 'cp861.pyc', 'cp862.py', 'iso8859_9.pyc', 'cp949.py', 'base64_codec.pyc', 'koi8_r.py', 'iso8859_2.py', 'ptcp154.pyc', 'uu_codec.pyc', 'mac_croatian.pyc', 'charmap.pyc', 'iso8859_15.pyc', 'euc_jp.py', 'cp1250.py', 'iso8859_10.pyc', 'koi8_r.pyc', 'unicode_escape.pyc', 'cp863.pyc', 'iso8859_4.pyc', 'cp852.py', 'unicode_internal.py', 'big5hkscs.py', 'cp1257.pyc', 'cp1254.py', 'shift_jisx0213.py', 'shift_jis.pyc', 'cp869.pyc', 'hp_roman8.py', 'iso8859_4.py', 'cp775.py', 'cp1251.py', 'mac_cyrillic.pyc', 'mac_greek.pyc', 'mac_roman.pyc', 'iso8859_11.pyc', 'iso8859_6.py', 'utf_8_sig.py', 'iso8859_3.py', 'iso2022_jp_1.py', 'ascii.py', 'cp1026.pyc', 'cp1250.pyc', 'cp950.py', 'raw_unicode_escape.py', 'euc_jis_2004.pyc', 'cp775.pyc', 'euc_kr.py', 'mac
_greek.py', 'big5.pyc', 'shift_jis_2004.pyc', 'gbk.pyc', 'cp1254.pyc', 'cp1255.pyc', 'cp855.pyc', 'string_escape.pyc', 'cp949.pyc', 'cp1258.pyc', 'iso8859_3.pyc', 'mac_iceland.pyc', 'cp1251.pyc', 'cp860.py', 'cp856.py', 'cp874.py', 'iso2022_kr.py', 'cp856.pyc', 'rot_13.py', 'palmos.py', 'iso2022_jp_2.pyc', 'mac_farsi.py', 'koi8_u.pyc', 'cp1256.py', 'iso8859_10.py', 'tis_620.py', 'iso8859_14.pyc', 'cp1253.py', 'cp1258.py', 'cp437.py', 'cp862.pyc', 'mac_turkish.py', 'undefined.py', 'euc_kr.pyc', 'gb18030.pyc', 'aliases.pyc', 'iso8859_9.py', 'uu_codec.py', 'gbk.py', 'quopri_codec.pyc', 'iso8859_7.py', 'mac_iceland.py', 'iso8859_2.pyc', 'euc_jis_2004.py', 'iso2022_jp_3.pyc', 'cp874.pyc', '__init__.py', 'mac_roman.py', 'iso8859_16.py', 'cp866.py', 'unicode_internal.pyc', 'mac_turkish.pyc', 'johab.pyc', 'cp037.pyc', 'punycode.py', 'cp1253.pyc', 'euc_jisx0213.pyc', 'iso2022_jp_2004.pyc', 'iso2022_kr.pyc', 'zlib_codec.pyc', 'cp932.py', 'cp1255.py', 'iso2022_jp_1.pyc', 'cp857.pyc', 'cp424.pyc',
 'iso2022_jp_2.py', 'iso2022_jp.pyc', 'mbcs.py', 'utf_8.py', 'palmos.pyc', 'cp1252.pyc', 'aliases.py', 'quopri_codec.py', 'latin_1.pyc', 'iso2022_jp.py', 'zlib_codec.py', 'cp1026.py', 'cp860.pyc', 'cp1252.py', 'hex_codec.pyc', 'iso8859_1.pyc', 'cp850.pyc', 'cp861.py', 'iso8859_15.py', 'cp865.pyc', 'hp_roman8.pyc', 'iso8859_7.pyc', 'mac_latin2.py', 'iso8859_11.py', 'mac_centeuro.pyc', 'iso8859_6.pyc', 'ascii.pyc', 'mac_centeuro.py', 'iso2022_jp_3.py', 'bz2_codec.py', 'mac_arabic.pyc', 'euc_jisx0213.py', 'tis_620.pyc', 'shift_jis_2004.py', 'utf_8.pyc', 'cp855.py', 'mac_romanian.pyc', 'iso8859_8.py', 'cp869.py', 'ptcp154.py', 'utf_16_be.py', 'iso2022_jp_ext.pyc', 'bz2_codec.pyc', 'base64_codec.py', 'latin_1.py', 'charmap.py', 'hz.pyc', 'cp950.pyc', 'cp875.pyc', 'cp1006.pyc', 'utf_16.py', 'shift_jisx0213.pyc', 'cp424.py', 'cp932.pyc', 'iso8859_5.py', 'mac_romanian.py', 'utf_8_sig.pyc', 'iso8859_1.py', 'cp875.py', 'cp437.pyc', 'cp865.py', 'utf_7.py', 'utf_16_be.pyc', 'rot_13.pyc', 'euc_jp.p
yc', 'raw_unicode_escape.pyc', 'iso8859_8.pyc', 'utf_16.pyc', 'iso8859_14.py', 'iso8859_16.pyc', 'cp852.pyc', 'cp737.pyc', 'mac_croatian.py', 'mac_latin2.pyc', 'iso2022_jp_ext.py', 'cp1140.py', 'mac_cyrillic.py', 'cp1257.py', 'cp500.py', 'cp1140.pyc', 'shift_jis.py', 'unicode_escape.py', 'cp864.py', 'cp864.pyc', 'cp857.py', 'hex_codec.py', 'mac_farsi.pyc', 'idna.py', 'johab.py', 'utf_7.pyc', 'cp863.py', 'iso8859_13.py', 'koi8_u.py', 'gb2312.pyc', 'cp1256.pyc', 'cp866.pyc', 'iso2022_jp_2004.py', 'utf_16_le.pyc', 'gb2312.py', 'cp1006.py', 'big5.py']

but as anybody can register a codec, so that won't be exhaustive list.

share|improve this answer
    
This is plain wrong. There is "1251" and "windows_1251", but you list "cp1251". Ahem, it does not work. –  user649198 Apr 13 '13 at 12:07
    
@user649198 I have no idea what you're talking about; cp1251 exists (windows-1251 is an alias of it) and is supported in Python 2.7 and Python 3. –  Mark Amery Aug 31 at 10:56

Probably you can do this:

from encodings.aliases import aliases
print aliases.keys()
share|improve this answer
3  
-1 Doesn't produce full list -- codecs that don't have aliases are mentioned in the aliases map. –  John Machin Nov 15 '09 at 12:13

Other answers here seem to indicate that constructing this list programmatically is difficult and fraught with traps. However, doing so is probably unnecessary since the documentation contains a complete list of the standard encodings Python supports. Here it is:

["ascii",
 "big5",
 "big5hkscs",
 "cp037",
 "cp424",
 "cp437",
 "cp500",
 "cp720",
 "cp737",
 "cp775",
 "cp850",
 "cp852",
 "cp855",
 "cp856",
 "cp857",
 "cp858",
 "cp860",
 "cp861",
 "cp862",
 "cp863",
 "cp864",
 "cp865",
 "cp866",
 "cp869",
 "cp874",
 "cp875",
 "cp932",
 "cp949",
 "cp950",
 "cp1006",
 "cp1026",
 "cp1140",
 "cp1250",
 "cp1251",
 "cp1252",
 "cp1253",
 "cp1254",
 "cp1255",
 "cp1256",
 "cp1257",
 "cp1258",
 "euc_jp",
 "euc_jis_2004",
 "euc_jisx0213",
 "euc_kr",
 "gb2312",
 "gbk",
 "gb18030",
 "hz",
 "iso2022_jp",
 "iso2022_jp_1",
 "iso2022_jp_2",
 "iso2022_jp_2004",
 "iso2022_jp_3",
 "iso2022_jp_ext",
 "iso2022_kr",
 "latin_1",
 "iso8859_2",
 "iso8859_3",
 "iso8859_4",
 "iso8859_5",
 "iso8859_6",
 "iso8859_7",
 "iso8859_8",
 "iso8859_9",
 "iso8859_10",
 "iso8859_13",
 "iso8859_14",
 "iso8859_15",
 "iso8859_16",
 "johab",
 "koi8_r",
 "koi8_u",
 "mac_cyrillic",
 "mac_greek",
 "mac_iceland",
 "mac_latin2",
 "mac_roman",
 "mac_turkish",
 "ptcp154",
 "shift_jis",
 "shift_jis_2004",
 "shift_jisx0213",
 "utf_32",
 "utf_32_be",
 "utf_32_le",
 "utf_16",
 "utf_16_be",
 "utf_16_le",
 "utf_7",
 "utf_8",
 "utf_8_sig"]

In case they're relevant to anyone's use case, the docs also list the following Python-specific encodings, many of which seem to be primarily for use by Python's internals or are otherwise weird in some way, like the 'undefined' encoding which always throws an exception if you try to use it. You probably want to ignore these completely if, like the question-asker here, you're trying to figure out what encoding was used for some text you've come across in the real world.

["idna",
 "mbcs",
 "palmos",
 "punycode",
 "raw_unicode_escape",
 "rot_13",
 "undefined",
 "unicode_escape",
 "unicode_internal",
 "base64_codec",
 "bz2_codec",
 "hex_codec",
 "quopri_codec",
 "string_escape",
 "uu_codec",
 "zlib_codec"]
share|improve this answer

The Python source code has a script at Tools/unicode/listcodecs.py which lists all codecs.

Among the listed codecs, however, there are some that are not Unicode-to-byte converters, like base64_codec, quopri_codec and bz2_codec, as @John Machin pointed out.

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