I've noticed recently that Python behaves in such non-obvious way when appending to the file using utf-8-sig encoding. See below:

>>> import codecs, os
>>> os.path.isfile('123')
False
>>> codecs.open('123', 'a', encoding='utf-8-sig').write('123\n')
>>> codecs.open('123', 'a', encoding='utf-8-sig').write('123\n')

The following text ends up to the file:

<BOM>123
<BOM>123

Isn't that a bug? This is so not logical. Could anyone explain to me why it was done so? Why didn't they manage to prepend BOM only when file doesn't exist and needs to be created?

  • 1
    No, it's not a bug; that's perfectly expected behavior. The codec cannot detect how much was already written to a file. – Martijn Pieters Apr 18 '14 at 12:43
up vote 6 down vote accepted

No, it's not a bug; that's perfectly normal, expected behavior. The codec cannot detect how much was already written to a file; you could use it to append to a pre-created but empty file for example. The file would not be new, but it would not contain a BOM either.

Then there are other use-cases where the codec is used on a stream or bytestring (e.g. not with codecs.open()) where there is no file at all to test, or where the developer wants to enforce a BOM at the start of the output, always.

Only use utf-8-sig on a new file; the codec will always write the BOM out whenever you use it.

If you are working directly with files, you can test for the start yourself; use utf-8 instead and write the BOM manually, which is just an encoded U+FEFF ZERO WIDTH NO-BREAK SPACE:

import io

with io.open(filename, 'a', encoding='utf8') as outfh:
    if outfh.tell() == 0:
        # start of file
        outfh.write(u'\ufeff')

I used the newer io.open() instead of codecs.open(); io is the new I/O framework developed for Python 3, and is more robust than codecs for handling encoded files, in my experience.

Note that the UTF-8 BOM is next to useless, really. UTF-8 has no variable byte order, so there is only one Byte Order Mark. UTF-16 or UTF-32, on the other hand, can be written with one of two distinct byte orders, which is why a BOM is needed.

The UTF-8 BOM is mostly used by Microsoft products to auto-detect the encoding of a file (e.g. not one of the legacy code pages).

  • @LeoRochael: ick, yes, you'd need to just write u'\ufeff' instead. Thanks for setting me straight! – Martijn Pieters Dec 5 '14 at 20:22
  • this code snipped above doesn't work in either Python 2 or Python 3. codecs.BOM_UTF_8 is bytes, while the TextIOWrapper file objects returned by io.open() with encoding expect only unicode strings. bobince gave the recipe for correctly writing the BOM in pure utf-8 encoding in this Answer. One should write directly the unicode representation of the BOM with: outfh.write(u'\uFEFF') – LeoRochael Dec 5 '14 at 20:25
  • @MartijnPieters and I and most python users that use tf8 w/ BOM want something that handles that problem without reinventing the wheel, but python doesn't offer this, it offers only broken utf-8-sig. Is offering broken things a part of python zen? And it's in python 3 too. – Smit Johnth Aug 5 '15 at 14:32
  • 1
    @SmitJohnth: please don't claim that most Python users do this. Because that's not true; UTF8 with BOM is a Microsoft-specific issue. If you feel utf-8-sig is broken, file a bug report with the Python project. – Martijn Pieters Aug 5 '15 at 14:33
  • @SmitJohnth: I already asked you to take this to chat; I've cleaned up the comments before this. – Martijn Pieters Aug 5 '15 at 14:35

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