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283 lines
11 KiB
283 lines
11 KiB
r"""
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This file defines a codec called "utf-8-variants" (or "utf-8-var"), which can
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decode text that's been encoded with a popular non-standard version of UTF-8.
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This includes CESU-8, the accidental encoding made by layering UTF-8 on top of
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UTF-16, as well as Java's twist on CESU-8 that contains a two-byte encoding for
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codepoint 0.
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This is particularly relevant in Python 3, which provides no other way of
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decoding CESU-8 [1]_.
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The easiest way to use the codec is to simply import `ftfy.bad_codecs`:
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>>> import ftfy.bad_codecs
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>>> result = b'here comes a null! \xc0\x80'.decode('utf-8-var')
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>>> print(repr(result).lstrip('u'))
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'here comes a null! \x00'
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The codec does not at all enforce "correct" CESU-8. For example, the Unicode
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Consortium's not-quite-standard describing CESU-8 requires that there is only
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one possible encoding of any character, so it does not allow mixing of valid
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UTF-8 and CESU-8. This codec *does* allow that, just like Python 2's UTF-8
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decoder does.
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Characters in the Basic Multilingual Plane still have only one encoding. This
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codec still enforces the rule, within the BMP, that characters must appear in
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their shortest form. There is one exception: the sequence of bytes `0xc0 0x80`,
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instead of just `0x00`, may be used to encode the null character `U+0000`, like
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in Java.
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If you encode with this codec, you get legitimate UTF-8. Decoding with this
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codec and then re-encoding is not idempotent, although encoding and then
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decoding is. So this module won't produce CESU-8 for you. Look for that
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functionality in the sister module, "Breaks Text For You", coming approximately
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never.
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.. [1] In a pinch, you can decode CESU-8 in Python 2 using the UTF-8 codec:
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first decode the bytes (incorrectly), then encode them, then decode them
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again, using UTF-8 as the codec every time.
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"""
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from __future__ import unicode_literals
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import re
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import codecs
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from encodings.utf_8 import (IncrementalDecoder as UTF8IncrementalDecoder,
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IncrementalEncoder as UTF8IncrementalEncoder)
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from ftfy.compatibility import bytes_to_ints, unichr, PYTHON2
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NAME = 'utf-8-variants'
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# This regular expression matches all possible six-byte CESU-8 sequences,
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# plus truncations of them at the end of the string. (If any of the
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# subgroups matches $, then all the subgroups after it also have to match $,
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# as there are no more characters to match.)
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CESU8_EXPR = (
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b'('
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b'\xed'
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b'([\xa0-\xaf]|$)'
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b'([\x80-\xbf]|$)'
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b'(\xed|$)'
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b'([\xb0-\xbf]|$)'
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b'([\x80-\xbf]|$)'
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b')'
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)
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CESU8_RE = re.compile(CESU8_EXPR)
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# This expression matches isolated surrogate characters that aren't
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# CESU-8, which have to be handled carefully on Python 2.
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SURROGATE_EXPR = (b'(\xed([\xa0-\xbf]|$)([\x80-\xbf]|$))')
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# This expression matches the Java encoding of U+0, including if it's
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# truncated and we need more bytes.
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NULL_EXPR = b'(\xc0(\x80|$))'
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# This regex matches cases that we need to decode differently from
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# standard UTF-8.
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SPECIAL_BYTES_RE = re.compile(b'|'.join([NULL_EXPR, CESU8_EXPR, SURROGATE_EXPR]))
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class IncrementalDecoder(UTF8IncrementalDecoder):
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"""
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An incremental decoder that extends Python's built-in UTF-8 decoder.
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This encoder needs to take in bytes, possibly arriving in a stream, and
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output the correctly decoded text. The general strategy for doing this
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is to fall back on the real UTF-8 decoder whenever possible, because
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the real UTF-8 decoder is way optimized, but to call specialized methods
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we define here for the cases the real encoder isn't expecting.
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"""
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def _buffer_decode(self, input, errors, final):
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"""
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Decode bytes that may be arriving in a stream, following the Codecs
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API.
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`input` is the incoming sequence of bytes. `errors` tells us how to
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handle errors, though we delegate all error-handling cases to the real
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UTF-8 decoder to ensure correct behavior. `final` indicates whether
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this is the end of the sequence, in which case we should raise an
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error given incomplete input.
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Returns as much decoded text as possible, and the number of bytes
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consumed.
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"""
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# decoded_segments are the pieces of text we have decoded so far,
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# and position is our current position in the byte string. (Bytes
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# before this position have been consumed, and bytes after it have
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# yet to be decoded.)
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decoded_segments = []
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position = 0
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while True:
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# Use _buffer_decode_step to decode a segment of text.
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decoded, consumed = self._buffer_decode_step(
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input[position:],
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errors,
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final
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)
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if consumed == 0:
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# Either there's nothing left to decode, or we need to wait
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# for more input. Either way, we're done for now.
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break
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# Append the decoded text to the list, and update our position.
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decoded_segments.append(decoded)
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position += consumed
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if final:
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# _buffer_decode_step must consume all the bytes when `final` is
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# true.
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assert position == len(input)
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return ''.join(decoded_segments), position
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def _buffer_decode_step(self, input, errors, final):
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"""
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There are three possibilities for each decoding step:
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- Decode as much real UTF-8 as possible.
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- Decode a six-byte CESU-8 sequence at the current position.
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- Decode a Java-style null at the current position.
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This method figures out which step is appropriate, and does it.
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"""
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# Get a reference to the superclass method that we'll be using for
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# most of the real work.
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sup = UTF8IncrementalDecoder._buffer_decode
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# Find the next byte position that indicates a variant of UTF-8.
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match = SPECIAL_BYTES_RE.search(input)
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if match is None:
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return sup(input, errors, final)
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cutoff = match.start()
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if cutoff > 0:
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return sup(input[:cutoff], errors, True)
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# Some byte sequence that we intend to handle specially matches
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# at the beginning of the input.
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if input.startswith(b'\xc0'):
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if len(input) > 1:
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# Decode the two-byte sequence 0xc0 0x80.
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return '\u0000', 2
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else:
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if final:
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# We hit the end of the stream. Let the superclass method
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# handle it.
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return sup(input, errors, True)
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else:
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# Wait to see another byte.
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return '', 0
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else:
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# Decode a possible six-byte sequence starting with 0xed.
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return self._buffer_decode_surrogates(sup, input, errors, final)
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@staticmethod
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def _buffer_decode_surrogates(sup, input, errors, final):
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"""
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When we have improperly encoded surrogates, we can still see the
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bits that they were meant to represent.
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The surrogates were meant to encode a 20-bit number, to which we
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add 0x10000 to get a codepoint. That 20-bit number now appears in
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this form:
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11101101 1010abcd 10efghij 11101101 1011klmn 10opqrst
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The CESU8_RE above matches byte sequences of this form. Then we need
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to extract the bits and assemble a codepoint number from them.
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"""
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if len(input) < 6:
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if final:
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# We found 0xed near the end of the stream, and there aren't
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# six bytes to decode. Delegate to the superclass method to
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# handle it as an error.
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if PYTHON2 and len(input) >= 3:
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# We can't trust Python 2 to raise an error when it's
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# asked to decode a surrogate, so let's force the issue.
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input = mangle_surrogates(input)
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return sup(input, errors, final)
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else:
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# We found a surrogate, the stream isn't over yet, and we don't
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# know enough of the following bytes to decode anything, so
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# consume zero bytes and wait.
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return '', 0
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else:
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if CESU8_RE.match(input):
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# Given this is a CESU-8 sequence, do some math to pull out
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# the intended 20-bit value, and consume six bytes.
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bytenums = bytes_to_ints(input[:6])
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codepoint = (
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((bytenums[1] & 0x0f) << 16) +
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((bytenums[2] & 0x3f) << 10) +
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((bytenums[4] & 0x0f) << 6) +
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(bytenums[5] & 0x3f) +
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0x10000
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)
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return unichr(codepoint), 6
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else:
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# This looked like a CESU-8 sequence, but it wasn't one.
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# 0xed indicates the start of a three-byte sequence, so give
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# three bytes to the superclass to decode as usual -- except
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# for working around the Python 2 discrepancy as before.
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if PYTHON2:
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input = mangle_surrogates(input)
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return sup(input[:3], errors, False)
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def mangle_surrogates(bytestring):
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"""
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When Python 3 sees the UTF-8 encoding of a surrogate codepoint, it treats
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it as an error (which it is). In 'replace' mode, it will decode as three
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replacement characters. But Python 2 will just output the surrogate
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codepoint.
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To ensure consistency between Python 2 and Python 3, and protect downstream
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applications from malformed strings, we turn surrogate sequences at the
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start of the string into the bytes `ff ff ff`, which we're *sure* won't
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decode, and which turn into three replacement characters in 'replace' mode.
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This function does nothing in Python 3, and it will be deprecated in ftfy
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5.0.
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"""
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if PYTHON2:
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if bytestring.startswith(b'\xed') and len(bytestring) >= 3:
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decoded = bytestring[:3].decode('utf-8', 'replace')
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if '\ud800' <= decoded <= '\udfff':
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return b'\xff\xff\xff' + mangle_surrogates(bytestring[3:])
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return bytestring
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else:
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# On Python 3, nothing needs to be done.
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return bytestring
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# The encoder is identical to UTF-8.
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IncrementalEncoder = UTF8IncrementalEncoder
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# Everything below here is boilerplate that matches the modules in the
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# built-in `encodings` package.
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def encode(input, errors='strict'):
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return IncrementalEncoder(errors).encode(input, final=True), len(input)
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def decode(input, errors='strict'):
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return IncrementalDecoder(errors).decode(input, final=True), len(input)
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class StreamWriter(codecs.StreamWriter):
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encode = encode
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class StreamReader(codecs.StreamReader):
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decode = decode
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CODEC_INFO = codecs.CodecInfo(
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name=NAME,
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encode=encode,
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decode=decode,
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incrementalencoder=IncrementalEncoder,
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incrementaldecoder=IncrementalDecoder,
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streamreader=StreamReader,
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streamwriter=StreamWriter,
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)
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