4

I'm reading from a text file which contains pound signs (£):

f = open(file, 'r')
string = f.read()
f.close()

Along with some other regex operations, I want to remove these pound signs, and write the string to a new file. The closest I've got to making this work is the following code:

n = re.compile(unichr(163))
string = n.sub('', string)

This seems to find the pound signs correctly, but instead of replacing them with nothing, the £ are converted this symbol: Â

Anyone have any idea what's going on?

  • 3
    You should be very particular with encoding when dealing with special characters. Make sure you know the encoding of the file you open, the one you write and the one of your own code. If you use Python 2.x, please tag your question accordingly, as encoding handling is different in the two versions. – Cilyan Mar 27 '15 at 1:00
  • use codecs.open instead of open, and then just do string.replace(u'£', '') , there is no need for regex here. – wim Mar 27 '15 at 1:48
  • @alessadro: the Python source code encoding has nothing to do with the issue. – jfs Mar 28 '15 at 16:09
3

Summary:

In utf8, £ maps to raw bytes \xc2\xa3. The re module allows for string substitution to occur between unicode and byte encoded strings, which is an error.

It's my opinion that J.F. Sebastian's answer is more succint, but here is a walkthrough.

Details:

Calls to read() return a bytestring.

To illustrate, lets create the following file durp:

echo -n "£" > durp

The next command gets the contents of the file in hex:

$ cat durp | xxd  | cut -d " " -f 2
c2a3

Note: Visiting this url will display £ in multiple encodings.

These are the raw bytes which constitute £. What does python do with the file when its read?

$ python
> f = open("durp")
> f.read()
'\xc2\xa3'

It doesn't know what the encoding is so it represents the bytes in their escaped hex form.

Let's import your code:

> import re
> r = re.compile(u'£')
> u'£'
u'\xa3'

That last line is just to see what we're making a pattern on. This is the source of the error.

Now we perform the substitution on the contents of the file:

> r.sub('', '\xc2\xa3')
'\xc2'

Which is conceivable but wrong. We substituted '\xa3' for '' in '\xc2\xa3' and got '\xc2'. This is an error in re, because unicode strings are being mixed with bytestrings. It doesn't not make sense to perform substitions of characters that have different encodings. This is essentially substituting bytes rather than characters.

J.F. Sebastian's answer explains how your terminal would interpret '\xc2' as Â.

  • it is wrong or at best misleading. The presence of unichr indicates that OP uses Python 2. read() returns a bytestring (a sequence of bytes) in this case -- no unicode type in the picture anywhere (you can write anything in to the file and read() will work anyway). If you see £ when you print two bytes print b'\xc2\xa3' means that your terminal/console uses cp1252 or similar character encoding (I would see £ because my terminal uses utf-8 character encoding). The real issue is that OP mixes unicode and bytes that exposes the bug in re module. – jfs Mar 28 '15 at 12:43
  • @J.F.Sebastian I think my answer has utility in walking through the OP's code and error. It did have several errors which I believe I've corrected. Your post is succinct and demonstrates better understanding of unicode in Python. Props. – cdosborn Mar 28 '15 at 16:41
  • It is better but it is still misleading. All bytes in a bytestring are just bytes. It is irrelevant for the issue whether some of them in the ascii range -- your confusion comes from the fact that Python's repr(bytestring) shows some bytes (from graph class) as characters e.g., b'\x22\x20\x22' is usually shown as b'" "' -- note: the literals (constants in the Python source code) are different but the bytestrings are the same -- they consist of the same sequence of bytes: 34, 32, 34 (it is more prominent in Python 3 where indexing a bytes object returns a Python int: b'a'[0] == 97 – jfs Mar 28 '15 at 17:10
2

It is a bug in re module in Python 2 that allows to mix unicode pattern and an input bytestring: it silently encodes the pattern using latin-1 encoding that leads to the incorrect result. Python 3 correctly raises TypeError here.

>>> u'\N{POUND SIGN}'.encode('latin-1')
'\xa3'
>>> u'\N{POUND SIGN}'.encode('utf-8')                                                                     
'\xc2\xa3'
>>> import re
>>> re.sub(u'\N{POUND SIGN}', '', u'\N{POUND SIGN}'.encode('utf-8'))                                      
'\xc2'
>>> print(re.sub(u'\N{POUND SIGN}', '', u'\N{POUND SIGN}'.encode('utf-8')).decode('cp1252'))              
Â
>>> print(re.sub(u'\N{POUND SIGN}', '', u'x\N{POUND SIGN}y'))
xy

The solution is to use Unicode for both the pattern and the input string:

import io

with io.open('file.txt', encoding='utf-8') as file:
     result = file.read().replace(u'\N{POUND SIGN}', '')

codecs modules does not handle universal newlines correctly, use io module instead. The builtin open() function in Python 3 is io.open().

0

The problem is that you're mixing 8bit strings and full Unicode strings. @cdosborn has given a great description how this had led to partially replacing chars.

In Python > 2.x, there's two ways to hold text: Strings and Unicode strings. Strings can contain text encoded in plain ASCII, ANSI, Windows-1252, UTF-8, UTF-16. The problem is that you have to know what encoding the text is in if you need to convert it. Unicode strings on the hand are totally unambiguous as they're the result of an explicit conversion from a string using a known encoding, by using Unicode escape codes (u"\u00A3"), or functions like unichr().

Best practice is to always decode Strings to Unicode on input to your code. Then encode on the way out. This is the default behaviour for Python 3.x and other languages like Java.

If you're working with files, the codecs module provide a good way to convert text to Unicode strings on the way in:

my_file = codecs.open("filename.txt", "r", "utf-8")
my_unicode_string = my_file.read()

Obviously, if your file is in another encoding, change utf-8 for the encoding name - See codec names: https://docs.python.org/2/library/codecs.html#standard-encodings

If you're dealing with strings from elsewhere (stdin, webforms), convert using:

my_unicode_string = "my €uro sign in utf-8".decode("utf-8")

Again, change the utf-8 argument accordingly

Once you have a Unicode string, you're free to use it how you wish. To do a simple search and replace for the pound sign do:

my_unicode_string.replace(unichr(163), "")

To make your code easier to read, you can encode your source code in UTF-8 and declare the encoding. This will mean you don't have to hide Unicode chars in escape sequences or ordinals.

Putting this altogether:

# -*- coding: utf-8 -*-
my_file = codecs.open("filename.txt", "r", "utf-8")
my_unicode_string = my_file.read()
replaced_unicode_string = my_unicode_string.replace("£", "")

Now, if you want to write your replaced_unicode_string to another file:

my_output_file = codecs.open("another_filename.txt", "w", "utf-8")
my_output_file.write(replaced_unicode_string)

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