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I have a string that I want to use as a filename, so I want to remove all characters that wouldn't be allowed in filenames, using Python.

I'd rather be strict than otherwise, so let's say I want to retain only letters, digits, and a small set of other characters like "_-.() ". What's the most elegant solution?

The filename needs to be valid on multiple operating systems (Windows, Linux and Mac OS) - it's an MP3 file in my library with the song title as the filename, and is shared and backed up between 3 machines.

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5  
Shouldn't this be built into the os.path module? –  endolith Mar 10 '09 at 13:59
1  
Perhaps, although her use case would require a single path that's safe across all platforms, not just the current one, which is something os.path isn't designed to handle. –  javawizard Jun 3 '13 at 21:37
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15 Answers

This whitelist approach (ie, allowing only the chars present in valid_chars) will work if there aren't limits on the formatting of the files or combination of valid chars that are illegal (like ".."), for example, what you say would allow a filename named " . txt" which I think is not valid on Windows. As this is the most simple approach I'd try to remove whitespace from the valid_chars and prepend a known valid string in case of error, any other approach will have to know about what is allowed where to cope with Windows file naming limitations and thus be a lot more complex.

>>> import string
>>> valid_chars = "-_.() %s%s" % (string.ascii_letters, string.digits)
>>> valid_chars
'-_.() abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789'
>>> filename = "This Is a (valid) - filename%$&$ .txt"
>>> ''.join(c for c in filename if c in valid_chars)
'This Is a (valid) - filename .txt'
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string.letters depends on current locale, therefore It might contain unsafe symbols for filename. –  J.F. Sebastian Nov 17 '08 at 9:31
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valid_chars = frozenset(valid_chars) wouldn't hurt. It is 1.5 times faster if applied to allchars. –  J.F. Sebastian Nov 17 '08 at 11:14
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Warning: This maps two different strings to the same string >>> import string >>> valid_chars = "-.() %s%s" % (string.ascii_letters, string.digits) >>> valid_chars '-.() abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789' >>> filename = "a.com/hello/world" >>> ''.join(c for c in filename if c in valid_chars) 'a.comhelloworld' >>> filename = "a.com/helloworld" >>> ''.join(c for c in filename if c in valid_chars) 'a.comhelloworld' >>> –  robert king May 16 '12 at 0:53
1  
Not to mention that naming a file "CON" on Windows will get you into trouble... –  Nathan Osman Jul 5 '12 at 4:09
    
A slight rearrangement makes specifying a substitute character straightforward. First the original functionality: ''.join(c if c in valid_chars else '' for c in filename) or with a substituted character or string for every invalid character: ''.join(c if c in valid_chars else '.' for c in filename) –  PeterVermont Feb 10 at 19:17
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You can look at the Django framework for how they create a "slug" from arbitrary text. A slug is URL- and filename- friendly.

Their template/defaultfilters.py (at around line 183) defines a function, slugify, that's probably the gold standard for this kind of thing. Essentially, their code is the following.

def slugify(value):
    """
    Normalizes string, converts to lowercase, removes non-alpha characters,
    and converts spaces to hyphens.
    """
    import unicodedata
    value = unicodedata.normalize('NFKD', value).encode('ascii', 'ignore')
    value = unicode(re.sub('[^\w\s-]', '', value).strip().lower())
    ... re.sub('[-\s]+', '-', value)

There's more, but I left it out, since it doesn't address slugification, but escaping.

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3  
The last line should be: value = unicode(re.sub('[-\s]+', '-', value)) –  Joseph Turian Oct 8 '10 at 6:49
    
Thanks - I could be missing something, but I'm getting: "normalize() argument 2 must be unicode, not str" –  Alex Cook Jan 12 '12 at 19:21
    
"normalize() argument 2". Means the value. If the value must be Unicode, then, you have to be sure that it's actually Unicode. Or. You might want to leave out unicode normalization if your actual value is actually an ASCII string. –  S.Lott Jan 12 '12 at 19:27
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In case anyone hasn't noticed the positive side of this approach is that it doesn't just remove non-alpha characters, but attempts to find good substitutes first (via the NFKD normalization), so é becomes e, a superscript 1 becomes a normal 1, etc. Thanks –  Michael Scott Cuthbert Nov 8 '12 at 2:13
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The slugify function has been moved to django/utils/text.py, and that file also contains a get_valid_filename function. –  Denilson Sá Dec 3 '13 at 21:39
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What is the reason to use the strings as file names? If human readability is not a factor I would go with base64 module which can produce file system safe strings. It won't be readable but you won't have to deal with collisions and it is reversible.

import base64
file_name_string = base64.urlsafe_b64encode(your_string)

Update: Changed based on Matthew comment.

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1  
Obviously this is the best answer if that is the case. –  user32141 Nov 17 '08 at 20:16
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Warning! base64 encoding by default includes the "/" character as valid output which isn't valid in filenames on a lot of systems. Instead use base64.urlsafe_b64encode(your_string) –  Matthew Apr 12 '09 at 1:33
    
This should absolutely be regarded as the ideal answer for webservers with any internal user-named content. Even if the administrator needs to go find something, you can easily write a script to transform all queries to the same form. –  codetaku Oct 18 '13 at 20:49
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You can use list comprehension together with the string methods.

>>> s
'foo-bar#baz?qux@127/\\9]'
>>> "".join(x for x in s if x.isalnum())
'foobarbazqux1279'
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This works great, and is the simplest one yet. –  T.K. Apr 14 '10 at 7:41
    
Although it doesn't include the few extra chars he wanted "_-.() ". Still my favourite solution though ;) –  matt burns Jan 31 '11 at 9:06
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Note that you can omit the square brackets. In this case a generator expression is passed to join, which saves the step of creating an otherwise unused list. –  Oben Sonne Oct 17 '11 at 11:25
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x.isalnum() does the same –  schlamar Mar 25 '12 at 17:40
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+1 Loved this. Slight modification I've done: "".join([x if x.isalnum() else "_" for x in s]) -- would yield a result where invalid items are _, like they're blanked. Maybe tha thelps someone else. –  Eddie Parker Dec 6 '12 at 22:44
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Just to further complicate things, you are not guaranteed to get a valid filename just by removing invalid characters. Since allowed characters differ on different filenames, a conservative approach could end up turning a valid name into an invalid one. You may want to add special handling for the cases where:

  • The string is all invalid characters (leaving you with an empty string)

  • You end up with a string with a special meaning, eg "." or ".."

  • On windows, certain device names are reserved. For instance, you can't create a file named "nul", "nul.txt" (or nul.anything in fact) The reserved names are:

    CON, PRN, AUX, NUL, COM1, COM2, COM3, COM4, COM5, COM6, COM7, COM8, COM9, LPT1, LPT2, LPT3, LPT4, LPT5, LPT6, LPT7, LPT8, and LPT9

You can probably work around these issues by prepending some string to the filenames that can never result in one of these cases, and stripping invalid characters.

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up vote 7 down vote accepted

This is the solution I ultimately used:

import unicodedata

validFilenameChars = "-_.() %s%s" % (string.ascii_letters, string.digits)

def removeDisallowedFilenameChars(filename):
    cleanedFilename = unicodedata.normalize('NFKD', filename).encode('ASCII', 'ignore')
    return ''.join(c for c in cleanedFilename if c in validFilenameChars)

The unicodedata.normalize call replaces accented characters with the unaccented equivalent, which is better than simply stripping them out. After that all disallowed characters are removed.

My solution doesn't prepend a known string to avoid possible disallowed filenames, because I know they can't occur given my particular filename format. A more general solution would need to do so.

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you should be able to use uuid.uuid4() for your unique prefix –  slf Mar 30 '09 at 19:50
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too verbose ahh –  Claudiu Aug 13 '09 at 0:34
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Keep in mind, there are actually no restrictions on filenames on Unix systems other than

  • It may not contain \0
  • It may not contain /

Everything else is fair game.

$ touch "
> even multiline
> haha
> ^[[31m red ^[[0m
> evil"
$ ls -la 
-rw-r--r--       0 Nov 17 23:39 ?even multiline?haha??[31m red ?[0m?evil
$ ls -lab
-rw-r--r--       0 Nov 17 23:39 \neven\ multiline\nhaha\n\033[31m\ red\ \033[0m\nevil
$ perl -e 'for my $i ( glob(q{./*even*}) ){ print $i; } '
./
even multiline
haha
 red 
evil

Yes, i just stored ANSI Colour Codes in a file name and had them take effect.

For entertainment, put a BEL character in a directory name and watch the fun that ensues when you CD into it ;)

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Why not just wrap the "osopen" with a try/except and let the underlying OS sort out whether the file is valid?

This seems like much less work and is valid no matter which OS you use.

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Does it valid the name though? I mean, if the OS is not happy, then you still need to do something, right? –  JeromeJ Feb 27 at 1:33
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>>> import string
>>> safechars = '_-.()' + string.digits + string.ascii_letters
>>> allchars = string.maketrans('', '')
>>> deletions = ''.join(set(allchars) - set(safechars))
>>> filename = '#abc.$%.txt'
>>> safe_filename = string.translate(filename, allchars, deletions)
>>> safe_filename
'abc..txt'
>>>

The above code doesn't work for unicode strings. It doesn't handle empty strings, special filenames ('nul', 'con', etc) also.

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+1 for translation tables, it is by far the most efficient method. For the special filenames/empties, a simple pre-condition check will suffice and for extraneous periods that's a simple correction as well. –  Christian Witts Mar 11 '09 at 10:59
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While translate is slightly more efficient than a regexp, that time will most likely be dwarfed if you actually try to open the file, which no doubt you are intending to do. Thus I prefer more a more readable regexp solution than the mess above –  nosatalian Dec 23 '09 at 19:21
    
I'm also worried about the blacklist. Granted, it's a blacklist that's based off a whitelist, but still. It seems less... safe. How do you know that "allchars" is actually complete? –  isaaclw Apr 24 '12 at 18:23
    
@isaaclw: '.translate()' accepts 256-char string as a translation table (byte-to-byte translation). '.maketrans()' creates such string. All values are covered; it is a pure whitelist approach –  J.F. Sebastian Apr 25 '12 at 7:48
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Another issue that the other comments haven't addressed yet is the empty string, which is obviously not a valid filename. You can also end up with an empty string from stripping too many characters.

What with the Windows reserved filenames and issues with dots, the safest answer to the question “how do I normalise a valid filename from arbitrary user input?” is “don't even bother try”: if you can find any other way to avoid it (eg. using integer primary keys from a database as filenames), do that.

If you must, and you really need to allow spaces and ‘.’ for file extensions as part of the name, try something like:

import re
badchars= re.compile(r'[^A-Za-z0-9_. ]+|^\.|\.$|^ | $|^$')
badnames= re.compile(r'(aux|com[1-9]|con|lpt[1-9]|prn)(\.|$)')

def makeName(s):
    name= badchars.sub('_', s)
    if badnames.match(name):
        name= '_'+name
    return name

Even this can't be guaranteed right especially on unexpected OSs — for example RISC OS hates spaces and uses ‘.’ as a directory separator.

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Though you have to be careful. It is not clearly said in your intro, if you are looking only at latine language. Some words can become meaningless or another meaning if you sanitize them with ascii characters only.

imagine you have "forêt poésie" (forest poetry), your sanitization might give "fort-posie" (strong + something meaningless)

Worse if you have to deal with chinese characters.

"下北沢" your system might end up doing "---" which is doomed to fail after a while and not very helpful. So if you deal with only files I would encourage to either call them a generic chain that you control or to keep the characters as it is. For URIs, about the same.

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You could use the re.sub() method to replace anything not "filelike". But in effect, every character could be valid; so there are no prebuilt functions (I believe), to get it done.

import re

str = "File!name?.txt"
f = open(os.path.join("/tmp", re.sub('[^a-zA-Z0-9_-.() ]+', '', str))

Would result in a filehandle to /tmp/filename.txt.

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'(?i)' is unnecessary here. –  J.F. Sebastian Nov 17 '08 at 11:02
    
True, sorry, habits. –  gx. Nov 17 '08 at 12:48
2  
You need the dash to go first in the group matcher so it doesn't appear as a range. re.sub('[^-a-zA-Z0-9_.() ]+', '', str) –  phord Nov 16 '10 at 0:09
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Most of these solutions don't work.

'/hello/world' -> 'helloworld'

'/helloworld'/ -> 'helloworld'

This isn't what you want generally, say you are saving the html for each link, you're going to overwrite the html for a different webpage.

I pickle a dict such as:

{'helloworld': 
    (
    {'/hello/world': 'helloworld', '/helloworld/': 'helloworld1'},
    2)
    }

2 represents the number that should be appended to the next filename.

I look up the filename each time from the dict. If it's not there, I create a new one, appending the max number if needed.

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note, if using helloworld1, you also need to check helloworld1 isn't in use and so on.. –  robert king Nov 25 '13 at 21:21
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The bobcat project contains a python module that does just this.

It's not completely robust, see this post and this reply.

So, as noted: base64 encoding is probably a better idea if readability doesn't matter.

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I'm sure this isn't a great answer, since it modifies the string it's looping over, but it seems to work alright:

import string
for chr in your_string:
 if chr == ' ':
   your_string = your_string.replace(' ', '_')
 elif chr not in string.ascii_letters or chr not in string.digits:
    your_string = your_string.replace(chr, '')
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