Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I was doing some work today, and came across an issue where something "looked funny". I had been interpreting some string data as utf-8, and checking the encoded form. The data was coming from ldap (Specifically, Active Directory) via python-ldap. No surprises there.

So I came upon the byte sequence '\xe3\x80\xb0' a few times, which, when decoded as utf-8, is unicode codepoint 3030 (wavy dash). I need the string data in utf-16, so naturally I converted it via .encode('utf-16'). Unfortunately, it seems python doesn't like this character:

D:\> python
Python 2.6.4 (r264:75708, Oct 26 2009, 08:23:19) [MSC v.1500 32 bit (Intel)] on win32
Type "help", "copyright", "credits" or "license" for more information.
>>> u"\u3030"
u'\u3030'
>>> u"\u3030".encode("utf-8")
'\xe3\x80\xb0'
>>> u"\u3030".encode("utf-16-le")
'00'
>>> u"\u3030".encode("utf-16-be")
'00'
>>> '\xe3\x80\xb0'.decode('utf-8')
u'\u3030'
>>> '\xe3\x80\xb0'.decode('utf-8').encode('utf-16')
'\xff\xfe00'
>>> '\xe3\x80\xb0'.decode('utf-8').encode('utf-16-le').decode('utf-8')
u'00'

It seems IronPython isn't a fan either:

D:\ipy
IronPython 2.6 Beta 2 (2.6.0.20) on .NET 2.0.50727.3053
Type "help", "copyright", "credits" or "license" for more information.
>>> u"\u3030"
u'\u3030'
>>> u"\u3030".encode('utf-8')
u'\xe3\x80\xb0'
>>> u"\u3030".encode('utf-16-le')
'00'

If somebody could tell me what, exactly, is going on here, it'd be much appreciated.

share|improve this question
    
Nicely asked question... the link to an image of the expected character is a nice touch. –  Jarret Hardie Feb 15 '10 at 21:53
    
Encoding something in UTF-16 and then decoding using UTF-8 is unlikely to produce sensible results. At best -- if the input is ASCII encodable -- you get a sensible character every second one :) –  Thomas Wouters Feb 15 '10 at 22:09
    
Yep, that last line was a mistype that confused me greatly. Thanks. –  NoName Feb 15 '10 at 22:19
add comment

4 Answers

up vote 2 down vote accepted

This seems to be the correct behaviour. The character u'\u3030' when encoded in UTF-16 is the same as the encoding of '00' in UTF-8. It looks strange, but it's correct.

The '\xff\xfe' you can see is just a Byte Order Mark.

Are you sure you want a wavy dash, and not some other character? If you were hoping for a different character then it might be because it had already been misencoded before entering your application.

share|improve this answer
    
Well, it's coming from a barely documented AD LDAP attribute called userParameters, The reason I noticed it is the field has both 0x00 and the '\xe3\x80\xb0' combo (right near each other, actually...). I suppose it's possible that microsoft isn't encoding things correctly. –  NoName Feb 15 '10 at 22:01
    
Perhaps it's clearer if you write it as '\x30\x30' instead of '00'? Different notation, same string. –  Thomas Wouters Feb 15 '10 at 22:03
    
@NoName: It's possible that they are using \x00 as a delimiter - I'm not familiar with the protocol so it's just a guess. Assuming it's not sensitive information, you might want to post the entire string here as it might give us some more hints. –  Mark Byers Feb 15 '10 at 22:09
    
Thanks for the help, yeah, it was definitely a misunderstanding. The data is a utf8 string that needs to be encoded as utf-16-le to read it as packed binary, one of the values contains ascii "30000000...0x00" which itself is a hex string meant to be interpreted as memory / a struct that when itself is hex decoded becomes the ascii string '0' which should then be decoded into an integer. You can see why I was confused ;) –  NoName Feb 15 '10 at 22:17
add comment

But it decodes okay:

>>> u"\u3030".encode("utf-16-le")
'00'
>>> '00'.decode("utf-16-le")
u'\u3030'

It's that the UTF-16 encoding of that character happens to coincide with the ASCII code for '0'. You could also represent it with '\x30\x30':

>>> '00' == '\x30\x30'
True
share|improve this answer
add comment

You are being confused by two things here (threw me off too):

  1. utf-16 and utf-32 encodings use a BOM unless you specify which byte order to use, via utf-16-be and such. This is the \xff\xfe in the second last line.
  2. '00' is two of the characters digit zero. It is not a null character. That'd print differently anyway:

    >>> '\0\0'
    '\x00\x00'
    
share|improve this answer
add comment

There is a basic error in your sample code above. Remember, you encode Unicode to an encoded string, and you decode from an encoded string back to Unicode. So, you do:

'\xe3\x80\xb0'.decode('utf-8').encode('utf-16-le').decode('utf-8')

which translates to the following steps:

'\xe3\x80\xb0' # (some string)
.decode('utf-8') # decode above text as UTF-8 encoded text, giving u'\u3030'
.encode('utf-16-le') # encode u'\u3030' as UTF-16-LE, i.e. '00'
.decode('utf-8') # OOPS! decode using the wrong encoding here!

u'\u3030' is indeed encoded as '00' (ascii zero twice) in UTF-16LE but you somehow think that this is a null byte ('\0') or something.

Remember, you can't reach to the same character if you encode with one and decode with another encoding:

>>> import unicodedata as ud
>>> c= unichr(193)
>>> ud.name(c)
'LATIN CAPITAL LETTER A WITH ACUTE'
>>> ud.name(c.encode("cp1252").decode("cp1253"))
'GREEK CAPITAL LETTER ALPHA'

In this code, I encoded to Windows-1252 and decoded from Windows-1253. In your code, you encoded to UTF-16LE and decoded from UTF-8.

share|improve this answer
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.