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I'm having some brain failure in understanding reading and writing text to a file (Python 2.4).

# the string, which has an a-acute in it.
ss = u'Capit\xe1n'
ss8 = ss.encode('utf8')
repr(ss), repr(ss8)

("u'Capit\xe1n'", "'Capit\xc3\xa1n'")

print ss, ss8    
print >> open('f1','w'), ss8

>>> file('f1').read() 

So I type in Capit\xc3\xa1n into my favorite editor, in file f2.


>>> open('f1').read()
>>> open('f2').read()
>>> open('f1').read().decode('utf8')
>>> open('f2').read().decode('utf8')

What am I not understanding here? Clearly there is some vital bit of magic (or good sense) that I'm missing. What does one type into text files to get proper conversions.

Edit: What I'm truly failing to grok here, is what the point of the UTF-8 representation is, if you can't actually get Python to recognize it, when it comes from outside. Maybe I should just JSON dump the string, and use that instead, since that has an asciiable representation! More to the point, is there an ascii representation of this unicode object that Python will recognize and decode, when coming in from a file? If so, how do I get it?

>>> print simplejson.dumps(ss)
>>> print >> file('f3','w'), simplejson.dumps(ss)
>>> simplejson.load(open('f3'))
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11 Answers 11

up vote 67 down vote accepted

In the notation


the "\xe1" represents just one byte. "\x" tells you that "e1" is in hexadecimal. When you write


into your file you have "\xc3" in it. Those are 4 bytes and in your code you read them all. You can see this when you display them:

>>> open('f2').read()

You can see that the backslash is escaped by a backslash. So you have four bytes in your string: "\", "x", "c" and "3".


As others pointed out in their answers you should just enter the characters in the editor and your editor should then handle the conversion to UTF-8 and save it.

If you actually have a string in this format you can use the string_escape codec to decode it into a normal string:

In [15]: print 'Capit\\xc3\\xa1n\n'.decode('string_escape')

The result is a string that is encoded in UTF-8 where the accented character is represented by the two bytes that were written \\xc3\\xa1 in the original string. If you want to have a unicode string you have to decode again with UTF-8.

To your edit: you don't have UTF-8 in your file. To actually see how it would look like:

s = u'Capit\xe1n\n'
sutf8 = s.encode('UTF-8')
open('utf-8.out', 'w').write(sutf8)

Compare the content of the file utf-8.out to the content of the file you saved with your editor.

share|improve this answer
So, what's the point of the utf-8 encoded format if python can read in files using it? In other words, is there any ascii representation that python will read in \xc3 as 1 byte? – Gregg Lind Jan 29 '09 at 16:51
The answer to your "So, what's the point…" question is "Mu." (since Python can read files encoded in UTF-8). For your second question: \xc3 is not part of the ASCII set. Perhaps you mean "8-bit encoding" instead. You are confused about Unicode and encodings; it's ok, many are. – tzot Jan 30 '09 at 12:16
Try reading this as a primer: joelonsoftware.com/articles/Unicode.html – tzot Jan 30 '09 at 12:16
note: u'\xe1' is one Unicode codepoint U+00e1 that can be represented using 1 or more bytes depending on character encoding (it is 2 bytes in utf-8). b'\xe1' is one byte (a number 225), what letter if any it can represent depends on character encoding used to decode it e.g., it is б (U+0431) in cp1251, с (U+0441) in cp866, etc. – J.F. Sebastian Jun 15 '13 at 6:31
It is amazing how many British coders say "just use ascii" and then fail to realise that the £ sign is not it. Most are not aware that ascii!=local code page (ie latin1). – Danny Staple Sep 5 '13 at 12:58

Rather than mess with the encode, decode methods I find it easier to use the open method from the codecs module.

>>>import codecs
>>>f = codecs.open("test", "r", "utf-8")

Then after calling f's read() function, an encoded unicode object is returned.


If you know the encoding of a file, using the codecs package is going to be much less confusing.

See http://docs.python.org/library/codecs.html#codecs.open

share|improve this answer
Works perfectly for writing files too, instead of open(file,'w') do codecs.open(file,'w','utf-8') solved – Matt Connolly Mar 4 '11 at 2:12
This is answer I was looking for :) – Justin Jun 27 '12 at 22:54
Does the codecs.open(...) method also fully conform to the with open(...): style, where the with cares about closing the file after all is done? It seems to work anyway. – try-catch-finally Mar 4 '13 at 18:09
@try-catch-finally Yes. I use with codecs.open(...) as f: all the time. – Tim Swast Jul 8 '13 at 14:27
I wish I could upvote this a hundred times. After agonizing for several days over encoding issues caused by a lot of mixed data and going cross-eyed reading about encoding, this answer is like water in a desert. Wish I'd seen it sooner. – Mike Girard Jul 21 '13 at 18:24
# -*- encoding: utf-8 -*-

# converting a unknown formatting file in utf-8

import codecs
import commands

file_location = "jumper.sub"
file_encoding = commands.getoutput('file -b --mime-encoding %s' % file_location)

file_stream = codecs.open(file_location, 'r', file_encoding)
file_output = codecs.open(file_location+"b", 'w', 'utf-8')

for l in file_stream:

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So, I've found a solution for what I'm looking for, which is:

print open('f2').read().decode('string-escape').decode("utf-8")

There are some unusual codecs that are useful here. This particular reading allows one to take utf-8 representations from within python, copy them into an ascii file, and have them be read in to unicode. Under the "string-escape" decode, the slashes won't be doubled.

This allows for the sort of round trip that I was imagining.

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Good response, I've been tested both solutions (codecs.open(file,"r","utf-8") and simply open(file,"r").read().decode("utf-8") and both worked perfectly. – Eagle Jun 13 '13 at 9:03

Actually this is worked for me for reading a file with utf-8 encodeing in Py 3.2

import codecs
f = codecs.open('file_name.txt', 'r', 'UTF-8')
for line in f:
share|improve this answer

Well, your favorite text editor does not realize that \xc3\xa1 are supposed to be character literals, but interprets them as text. That's why you get the double backslashes in the last line -- it's now a real backslash + xc3 etc in your file.

If you want to read and write encoded files in Python, best use the codecs module.

Pasting text between the terminal and applications is difficult, because you don't know which program will interpret your text using which encoding. You could try the following:

>>> s = file("f1").read()
>>> print unicode(s, "Latin-1")

Then paste this string into your editor and make sure that it stores it using Latin-1. Under the assumption that the clipboard does not garble the string, the roundtrip should work.

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You have stumbled over the general problem with encodings: How can I tell in which encoding a file is?

Answer: You can't unless the file format provides for this. XML, for example, begins with:

<?xml encoding="utf-8"?>

This header was carefully chosen so that it can be read no matter the encoding. In your case, there is no such hint, hence neither your editor nor python has any idea what is going on. Therefore, you must use the codecs module and use codecs.open(path,mode,encoding) which provides the missing bit in Python.

As for your editor, you must check if it offers some way to set the encoding of a file.

The point of utf-8 is to be able to encode 21bit characters (Unicode) as an 8bit data stream (because that's the only thing all computers in the world can handle). But since most OSs predate the unicode era, they don't have suitable tools to attach the encoding information to files on the hard disk.

The next issue is the representation in Python. This is explained perfectly in the comment by heikogerlach. You must understand that your console can only display ASCII. In order to display unicode or anything >= charcode 128, it must use some means of escaping. In your editor, you must not type the escaped display string but what the string means (in this case, you must enter the umlaut and save the file).

That said, you can use the Python function eval() to turn an escaped string into a string:

>>> x = eval("'Capit\\xc3\\xa1n\\n'")
>>> x
>>> x[5]
>>> len(x[5])

As you can see, the string "\xc3" has been turned into a single character. This is now an 8bit string, utf-8 encoded. To get unicode:

>>> x.decode('utf-8')

[EDIT] Gregg Lind asked: I think there are some pieces missing here: the file f2 contains: hex:

0000000: 4361 7069 745c 7863 335c 7861 316e  Capit\xc3\xa1n

codecs.open('f2','rb', 'utf-8'), for example, reads them all in a separate chars (expected) Is there any way to write to a file in ascii that would work?

Answer: That depends on what you mean. ASCII can't represent characters > 127. So you need some way to say "the next few characters mean something special" which is what the sequence "\x" does. It says: The next two characters are the code of a single character. "\u" does the same using four characters to encode unicode up to 0xffff (65535).

So you can't directly write unicode to ascii (because ascii simply doesn't contain the same characters). What you can do is write it as string escapes (as in f2); in this case, the file can be represented as ASCII. Or you can write it as utf-8, in which case, you need an 8bit safe stream.

Your solution using decode('string-escape') does work but you must be aware how much memory you use: Three times the amount of using codecs.open().

Remember that a file is just a sequence of bytes with 8 bits. Neither the bits nor the bytes have a meaning. It's you who says "65 means 'A'". Since \xc3\xa1 should become "à" but the computer has no means to know, you must tell it by specifying the encoding which was used when writing the file.

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I think there are some pieces missing here: the file f2 contains: hex: 0000000: 4361 7069 745c 7863 335c 7861 316e 0a Capit\xc3\xa1n. codecs.open('f2','rb', 'utf-8') , for example, reads them all in a separate chars (expected) Is there any way to write to a file in ascii that would work? – Gregg Lind Jan 29 '09 at 17:21

To read in an Unicode string and then send to HTML, I did this:

fileline.decode("utf-8").encode('ascii', 'xmlcharrefreplace')

Useful for python powered http servers.

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Now all you need in Python3 is open(Filename, 'r', encoding='utf-8')

[Edit on 2016-02-10 for requested clarification]

Python3 added the encoding parameter to its open function. The following information about the open function is gathered from here: https://docs.python.org/3/library/functions.html#open

open(file, mode='r', buffering=-1, encoding=None, errors=None, newline=None, closefd=True, opener=None)

Encoding is the name of the encoding used to decode or encode the file. This should only be used in text mode. The default encoding is platform dependent (whatever locale.getpreferredencoding() returns), but any text encoding supported by Python can be used. See the codecs module for the list of supported encodings.

So by adding encoding='utf-8' as a parameter to the open function, the file reading and writing is all done as utf8 (which is also now the default encoding of everything done in Python.)

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Could you please elaborate more your answer adding a little more description about the solution you provide? – abarisone Feb 10 at 16:26

the \x.. sequence is something that's specific to python. It's not a universal byte escape sequence.

How you actually enter in utf8-encoded non-ascii depends on your OS and/or your editor. Here's how you do it in Windows. For OS X to enter a with an acute accent you can just hit option-e, then a, and almost all text editors in OS X support utf8.

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I was trying to parse ical using python 2.7.9:

from icalendar import Calendar

but was getting:

 Traceback (most recent call last):
 File "ical.py", line 92, in parse
    print "{}".format(e[attr])
UnicodeEncodeError: 'ascii' codec can't encode character u'\xe1' in position 7: ordinal not in range(128)

and it was fixed with just:

print "{}".format(e[attr].encode("utf-8"))

(Now it can print liké á böss.)

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