Fixing faulty unicode strings

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悲&欢浪女
悲&欢浪女 2021-01-19 03:49

A faulty unicode string is one that has accidentally encoded bytes in it. For example:

Text: שלום, Windows-1255-encoded: \\x99\\x8c\\x85\\x8d

1条回答
  •  野的像风
    2021-01-19 04:22

    You could convert u'\x99\x8c\x85\x8d' to '\x99\x8c\x85\x8d' using the latin-1 encoding:

    In [9]: x = u'\x99\x8c\x85\x8d'
    
    In [10]: x.encode('latin-1')
    Out[10]: '\x99\x8c\x85\x8d'
    

    However, it seems like this is not a valid Windows-1255-encoded string. Did you perhaps mean '\xf9\xec\xe5\xed'? If so, then

    In [22]: x = u'\xf9\xec\xe5\xed'
    
    In [23]: x.encode('latin-1').decode('cp1255')
    Out[23]: u'\u05e9\u05dc\u05d5\u05dd'
    

    converts u'\xf9\xec\xe5\xed' to u'\u05e9\u05dc\u05d5\u05dd' which matches the desired unicode you posted.


    If you really want to convert u'\x99\x8c\x85\x8d' into u'\u05e9\u05dc\u05d5\u05dd', then this happens to work:

    In [27]: u'\x99\x8c\x85\x8d'.encode('latin-1').decode('cp862')
    Out[27]: u'\u05e9\u05dc\u05d5\u05dd'
    

    The above encoding/decoding chain was found using this script:

    guess_chain_encodings.py

    """
    Usage example: guess_chain_encodings.py "u'баба'" "u'\xe1\xe0\xe1\xe0'"
    """
    import six
    import argparse
    import binascii
    import zlib
    import utils_string as us
    import ast
    import collections
    import itertools
    import random
    
    encodings = us.all_encodings()
    
    Errors = (IOError, UnicodeEncodeError, UnicodeError, LookupError,
              TypeError, ValueError, binascii.Error, zlib.error)
    
    def breadth_first_search(text, all = False):
        seen = set()
        tasks = collections.deque()
        tasks.append(([], text))
        while tasks:
            encs, text = tasks.popleft()
            for enc, newtext in candidates(text):
                if repr(newtext) not in seen:
                    if not all:
                        seen.add(repr(newtext))
                    newtask = encs+[enc], newtext
                    tasks.append(newtask)
                    yield newtask
    
    def candidates(text):
        f = text.encode if isinstance(text, six.text_type) else text.decode
        results = []
        for enc in encodings:
            try:
                results.append((enc, f(enc)))
            except Errors as err:
                pass
        random.shuffle(results)
        for r in results:
            yield r
    
    def fmt(encs, text):
        encode_decode = itertools.cycle(['encode', 'decode'])
        if not isinstance(text, six.text_type):
            next(encode_decode)
        chain = '.'.join( "{f}('{e}')".format(f = func, e = enc)
                         for enc, func in zip(encs, encode_decode) )
        return '{t!r}.{c}'.format(t = text, c = chain)
    
    def main():
        parser = argparse.ArgumentParser()
        parser.add_argument('start', type = ast.literal_eval, help = 'starting unicode')
        parser.add_argument('stop', type = ast.literal_eval, help = 'ending unicode')
        parser.add_argument('--all', '-a', action = 'store_true')    
        args = parser.parse_args()
        min_len = None
        for encs, text in breadth_first_search(args.start, args.all):
            if min_len is not None and len(encs) > min_len:
                break
            if type(text) == type(args.stop) and text == args.stop:
                print(fmt(encs, args.start))
                min_len = len(encs)
    
    if __name__ == '__main__':
        main()
    

    Running

    % guess_chain_encodings.py "u'\x99\x8c\x85\x8d'" "u'\u05e9\u05dc\u05d5\u05dd'" --all
    

    yields

    u'\x99\x8c\x85\x8d'.encode('latin_1').decode('cp862')
    u'\x99\x8c\x85\x8d'.encode('charmap').decode('cp862')
    u'\x99\x8c\x85\x8d'.encode('rot_13').decode('cp856')
    

    etc.

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