Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I wish to write a python program which reads files containing unicode text. These files are normally encoded with UTF-8, but might not be; if they aren't, the alternate encoding will be explicitly declared at the beginning of the file. More precisely, it will be declared using exactly the same rules as Python itself uses to allow Python source code to have an explicitly declared encoding (as in PEP 0263, see http://www.python.org/dev/peps/pep-0263/ for more details). Just to be clear, the files being processed are not actually python source, but they do declare their encodings (when not in UTF-8) using the same rules.

If one knows the encoding of a file before one opens it, Python provides a very easy way to read the file with automatic decoding: the codecs.open command; for instance, one might do:

import codecs
f = codecs.open('unicode.rst', encoding='utf-8')
for line in f:
    print repr(line)

and each line we get in the loop will be a unicode string. Is there a Python library which does a similar thing, but choosing the encoding according to the rules above (which are Python 3.0's rules, I think)? (e.g. does Python expose the 'read file with self-declared encoding' it uses to read source to the language?) If not, what's the easiest way to achieve the desired effect?

One thought is to open the file using the usual open, read the first two lines, interpret them as UTF-8, look for a coding declaration using the regexp in the PEP, and if one finds one start decoding all subsequent lines using the encoding declared. For this to be sure to work, we need to know that for all the encodings that Python allows in Python source, the usual Python readline will correctly split the file into lines - that is, we need to know that for all the encodings Python allows in Python source, the byte string '\n' always really mean newline, and isn't part of some multi-byte sequence encoding another character. (In fact I also need to worry about '\r\n' as well.) Does anyone know if this is true? The docs were not very specific.

Another thought is to look in the Python sources. Does anyone know where in the Python source the source-code-encoding-processing is done?

share|improve this question

3 Answers 3

up vote 5 down vote accepted

You should be able to roll your own decoder in Python. If you're only supporting 8-bit encodings which are supersets of ASCII the code below should work as-is.

If you need support 2-byte encodings like UTF-16 you'd need to augment the pattern to match \x00c\x00o.. or the reverse, depending on the byte order mark. First, generate a few test files which advertise their encoding:

import codecs, sys
for encoding in ('utf-8', 'cp1252'):
    out = codecs.open('%s.txt' % encoding, 'w', encoding)
    out.write('# coding = %s\n' % encoding)
    out.write(u'\u201chello se\u00f1nor\u201d')

Then write the decoder:

import codecs, re

def open_detect(path):
    fin = open(path, 'rb')
    prefix = fin.read(80)
    encs = re.findall('#\s*coding\s*=\s*([\w\d\-]+)\s+', prefix)
    encoding = encs[0] if encs else 'utf-8'
    return codecs.EncodedFile(fin, 'utf-8', encoding)

for path in ('utf-8.txt','cp1252.txt'):
    fin = open_detect(path)
    print repr(fin.readlines())


['# coding = utf-8\n', '\xe2\x80\x9chello se\xc3\xb1nor\xe2\x80\x9d']
['# coding = cp1252\n', '\xe2\x80\x9chello se\xc3\xb1nor\xe2\x80\x9d']
share|improve this answer
Thanks! This is nice and simple, and will work pretty well in practical examples. It is probably the best solution in most cases! For my own requirements, exact fidelity to what Python does is important, so I will end up doing something rather more elaborate, as described in my answer below, which I include just in case anyone else who cares about exact fidelity finds this question on StackOverflow. –  circular-ruin May 21 '11 at 14:35

I examined the sources of tokenizer.c (thanks to @Ninefingers for suggesting this in another answer and giving a link to the source browser). It seems that the exact algorithm used by Python is (equivalent to) the following. In various places I'll describe the algorithm as reading byte by byte---obviously one wants to do something buffered in practice, but it's easier to describe this way. The initial part of the file is processed as follows:

  1. Upon opening a file, attempt to recognize the UTF-8 BOM at the beginning of the file. If you see it, eat it and make a note of the fact you saw it. Do not recognize the UTF-16 byte order mark.
  2. Read 'a line' of text from the file. 'A line' is defined as follows: you keep reading bytes until you see one of the strings '\n', '\r' or '\r\n' (trying to match as long a string as possible---this means that if you see '\r' you have to speculatively read the next character, and if it's not a '\n', put it back). The terminator is included in the line, as is usual Python practice.
  3. Decode this string using the UTF-8 codec. Unless you have seen the UTF-8 BOM, generate an error message if you see any non-ASCII characters (i.e. any characters above 127). (Python 3.0 does not, of course, generate an error here.) Pass this decoded line on to the user for processing.
  4. Attempt to interpret this line as a comment containing a coding declaration, using the regexp in PEP 0263. If you find a coding declaration, skip to the instructions below for 'I found a coding declaration'.
  5. OK, so you didn't find a coding declaration. Read another line from the input, using the same rules as in step 2 above.
  6. Decode it, using the same rules as step 3, and pass it on to the user for processing.
  7. Attempt again to interpred this line as a coding declaration comment, as in step 4. If you find one, skip to the instructions below for 'I found a coding declaration'.
  8. OK. We've now checked the first two lines. According to PEP 0263, if there was going to be a coding declaration, it would have been on the first two lines, so we now know we're not going to see one. We now read the rest of the file using the same reading instructions as we used to read the first two lines: we read the lines using the rules in step 2, decode using the rules in step 3 (making an error if we see non-ASCII bytes unless we saw a BOM).

Now the rules for what to do when 'I found a coding declaration':

  1. If we previously saw a UTF-8 BOM, check that the coding declaration says 'utf-8' in some form. Throw an error otherwise. (''utf-8' in some form' means anything which, after converting to lower case and converting underscores to hyphens, is either the literal string 'utf-8', or something beginning with 'utf-8-'.)
  2. Read the rest of the file using the decoder associated to the given encoding in the Python codecs module. In particular, the division of the rest of the bytes in the file into lines is the job of the new encoding.
  3. One final wrinkle: universal newline type stuff. The rules here are as follows. If the encoding is anything except 'utf-8' in some form or 'latin-1' in some form, do no universal-newline stuff at all; just pass out lines exactly as they come from the decoder in the codecs module. On the other hand, if the encoding is 'utf-8' in some form or 'latin-1' in some form, transform lines ending '\r' or '\r\n' into lines ending '\n'. (''utf-8' in some form' means the same as before. ''latin-1' in some form' means means anything which, after converting to lower case and converting underscores to hyphens, is one of the literal strings 'latin-1', 'iso-latin-1' or 'iso-8859-1', or any string beginning with one of 'latin-1-', 'iso-latin-1-' or 'iso-8859-1-'.

For what I'm doing, fidelity to Python's behaviour is important. My plan is to roll an implementation of the algorithm above in Python, and use this. Thanks for everyone who answered!

share|improve this answer
this means that if you see '\r' you have to speculatively read the next character, and if it's not a '\n', put it back Why don't you treat \r as a valid EOL character? Decode this string using the UTF-8 codec. Unless you have seen the UTF-8 BOM, generate an error message if you see any non-ASCII characters (...) Shouldn't this be reversed? –  Piotr Dobrogost Jul 21 '12 at 19:42
@PiotrDobrogost : You do treat \r as a valid EOL character. The point is that if character immediately following the \r is a \n, then that \n must be 'eaten' as part of the line ending with the \r and not treated as part of the next line. If the character immediately following the \r is anything other than \n, then it should instead be left in the stream to be the first character of the next line. That's why you need the 'put back' logic described. –  circular-ruin Jul 22 '12 at 1:29
@PiotrDobrogost: "Unless you have seen the UTF-8 BOM, generate an error message if you see any non-ASCII characters". I think this is correct as written. The rule is: if you (a) see a non-ASCII character and (b) you have not seen a UTF-8 BOM, then you should generate an error. (If you see a non ASCII character but did see a UTF-8 BOM, then you don't make an error message; and obviously if all the characters are ASCII you don't make an error message.) Hope this clarifies things. Please ask more questions if I'm still being unclear and/or it looks like I am really mistaken here. –  circular-ruin Jul 22 '12 at 1:33
In regard to \r - I've read if it's not a '\n', put it back to mean put just read \r back while this applies not to \r but the next char. My fault. As to seeing UTF-8 BOM what I mean is the first thing is to check if there's a BOM or not and only if it's present try to decode using UTF-8 codec. Thanks for clarification. –  Piotr Dobrogost Jul 22 '12 at 15:22
@PiotrDobrogost for the UTF8 decoding thing, you're right. It makes more sense to think about it the way you say (error if you see any bytes above \x7f unless you've seen the BOM, o'wise decode), but on the other hand I think that what I said (first decode, then error if you get any decode errors or if the result contains unicode chars above \u7f) is equivalent, and was as it happens the way I was thinking of things. BTW, would you like to see my Python code for this? (It's actually not 100% faithful to the algo above in that my code does recognize UTF16 BOMs, unlike python's interpreter). –  circular-ruin Jul 24 '12 at 16:42

From said PEP (0268):

Python's tokenizer/compiler combo will need to be updated to work as follows:

  1. read the file

  2. decode it into Unicode assuming a fixed per-file encoding

  3. convert it into a UTF-8 byte string

  4. tokenize the UTF-8 content

  5. compile it, creating Unicode objects from the given Unicode data and creating string objects from the Unicode literal data by first reencoding the UTF-8 data into 8-bit string data using the given file encoding

Indeed, if you check Parser/tokenizer.c in the Python source you'll find functions get_coding_spec and check_coding_spec which are responsible for finding this information on a line being examined in decoding_fgets.

It doesn't look like this capability is being exposed anywhere to you as a python API (at least these specific functions aren't Py prefixed -, so your options are third party library and/or re-purposing these functions as an extension. I don't personally know of any third party libraries - I can't see this functionality in the standard library either.

share|improve this answer
Thanks for the link to the sources. I agree with you that it looks like the functionality is not exposed anywhere, which is what I was afraid of. I think I plan to analyze the algorithm in the python sources and then recode it in Python... –  circular-ruin May 21 '11 at 14:37

Your Answer


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.