1025

I would like to list all files recursively in a directory. I currently have a directory structure like this:

  • src/main.c
  • src/dir/file1.c
  • src/another-dir/file2.c
  • src/another-dir/nested/files/file3.c

I've tried to do the following:

from glob import glob

glob(os.path.join('src','*.c'))

But this will only get be files directly in the src subfolder, e.g. I get main.c but I will not get file1.c, file2.c etc.

from glob import glob

glob(os.path.join('src','*.c'))
glob(os.path.join('src','*','*.c'))
glob(os.path.join('src','*','*','*.c'))
glob(os.path.join('src','*','*','*','*.c'))

But this is obviously limited and clunky, how can I do this properly?

1
  • doesn't glob('src/**/*.c') work in this case? Sep 13, 2021 at 8:06

28 Answers 28

1802

There are a couple of ways:

pathlib.Path().rglob()

Use pathlib.Path().rglob() from the pathlib module, which was introduced in Python 3.5.

from pathlib import Path

for path in Path('src').rglob('*.c'):
    print(path.name)

glob.glob()

If you don't want to use pathlib, use glob.glob():

from glob import glob

for filename in glob('src/**/*.c', recursive=True):
    print(filename)   

For cases where matching files beginning with a dot (.); like files in the current directory or hidden files on Unix based system, use the os.walk() solution below.

os.walk()

For older Python versions, use os.walk() to recursively walk a directory and fnmatch.filter() to match against a simple expression:

import fnmatch
import os

matches = []
for root, dirnames, filenames in os.walk('src'):
    for filename in fnmatch.filter(filenames, '*.c'):
        matches.append(os.path.join(root, filename))

This version should also be faster depending on how many files you have, as the pathlib module has a bit of overhead over os.walk().

14
  • 4
    For Python older than 2.2 there is os.path.walk() which is a little more fiddly to use than os.walk() Feb 2, 2010 at 19:34
  • 38
    @gnibbler I know that is an old comment, but my comment is just to let people know that os.path.walk() is deprecated and has been removed in Python 3. Jan 18, 2013 at 16:14
  • 7
    @DevC that might work in the specific case asked in this question, but it's easy to imagine someone that wants to do use it with queries such as 'a*.c' etc, so I think it's worth keeping the current somewhat slow answer. May 19, 2014 at 19:29
  • 4
    For what it's worth, in my case finding 10,000+ files with glob was much slower than with os.walk, so I went with the latter solution for that reason.
    – Godsmith
    Sep 12, 2018 at 6:23
  • 4
    For python 3.4, pathlib.Path('src').glob('**/*.c') should work.
    – CivFan
    Apr 11, 2019 at 0:16
215

For python >= 3.5 you can use **, recursive=True, i.e.:

import glob
for f in glob.glob('/path/**/*.c', recursive=True):
    print(f)

If recursive is True (default False), the pattern ** will match any files and zero or more directories and subdirectories. If the pattern is followed by an os.sep, only directories and subdirectories match.


Python 3 Demo

3
  • 4
    This works better than pathlib.Path('./path/').glob('*/') because it also so in folder with size of 0 Apr 18, 2020 at 15:14
  • 4
    In Python 3.9.1, recursive is set to False by default.
    – PYB
    Dec 30, 2020 at 21:53
  • 1
    recursive is also set to False by default in Python 3.8.*.
    – rayryeng
    Oct 25, 2021 at 14:01
123

Similar to other solutions, but using fnmatch.fnmatch instead of glob, since os.walk already listed the filenames:

import os, fnmatch


def find_files(directory, pattern):
    for root, dirs, files in os.walk(directory):
        for basename in files:
            if fnmatch.fnmatch(basename, pattern):
                filename = os.path.join(root, basename)
                yield filename


for filename in find_files('src', '*.c'):
    print 'Found C source:', filename

Also, using a generator alows you to process each file as it is found, instead of finding all the files and then processing them.

0
93

I've modified the glob module to support ** for recursive globbing, e.g:

>>> import glob2
>>> all_header_files = glob2.glob('src/**/*.c')

https://github.com/miracle2k/python-glob2/

Useful when you want to provide your users with the ability to use the ** syntax, and thus os.walk() alone is not good enough.

4
  • 2
    Can we make this stop after it finds the first match? Maybe make it possible to use it as a generator rather than having it return a list of every possible result? Also, is this a DFS or a BFS? I'd much prefer a BFS, I think, so that files which are near the root are found first. +1 for making this module and providing it on GitHub/pip. Aug 5, 2014 at 18:24
  • 24
    The ** syntax was added to the official glob module in Python 3.5. Jan 26, 2015 at 19:13
  • 1
    @ArtOfWarfare Alright, fine. This is still useful for < 3.5. Jul 3, 2017 at 14:42
  • 6
    To activate recursive globbing using ** with the official glob module, do: glob(path, recursive=True)
    – winklerrr
    Mar 29, 2020 at 11:09
79

Starting with Python 3.4, one can use the glob() method of one of the Path classes in the new pathlib module, which supports ** wildcards. For example:

from pathlib import Path

for file_path in Path('src').glob('**/*.c'):
    print(file_path) # do whatever you need with these files

Update: Starting with Python 3.5, the same syntax is also supported by glob.glob().

3
42
import os
import fnmatch


def recursive_glob(treeroot, pattern):
    results = []
    for base, dirs, files in os.walk(treeroot):
        goodfiles = fnmatch.filter(files, pattern)
        results.extend(os.path.join(base, f) for f in goodfiles)
    return results

fnmatch gives you exactly the same patterns as glob, so this is really an excellent replacement for glob.glob with very close semantics. An iterative version (e.g. a generator), IOW a replacement for glob.iglob, is a trivial adaptation (just yield the intermediate results as you go, instead of extending a single results list to return at the end).

2
  • 1
    What do you think about using recursive_glob(pattern, treeroot='.') as I suggested in my edit? This way, it can be called for example as recursive_glob('*.txt') and intuitively match the syntax of glob. Jan 4, 2015 at 21:07
  • @ChrisRedford, I see it as a pretty minor issue either way. As it stands now, it matches the "files then pattern" argument order of fnmatch.filter, which is roughly as useful as the possibility of matching single-argument glob.glob. Jan 4, 2015 at 21:43
22

You'll want to use os.walk to collect filenames that match your criteria. For example:

import os
cfiles = []
for root, dirs, files in os.walk('src'):
  for file in files:
    if file.endswith('.c'):
      cfiles.append(os.path.join(root, file))
17

Here's a solution with nested list comprehensions, os.walk and simple suffix matching instead of glob:

import os
cfiles = [os.path.join(root, filename)
          for root, dirnames, filenames in os.walk('src')
          for filename in filenames if filename.endswith('.c')]

It can be compressed to a one-liner:

import os;cfiles=[os.path.join(r,f) for r,d,fs in os.walk('src') for f in fs if f.endswith('.c')]

or generalized as a function:

import os

def recursive_glob(rootdir='.', suffix=''):
    return [os.path.join(looproot, filename)
            for looproot, _, filenames in os.walk(rootdir)
            for filename in filenames if filename.endswith(suffix)]

cfiles = recursive_glob('src', '.c')

If you do need full glob style patterns, you can follow Alex's and Bruno's example and use fnmatch:

import fnmatch
import os

def recursive_glob(rootdir='.', pattern='*'):
    return [os.path.join(looproot, filename)
            for looproot, _, filenames in os.walk(rootdir)
            for filename in filenames
            if fnmatch.fnmatch(filename, pattern)]

cfiles = recursive_glob('src', '*.c')
11

Consider pathlib.rglob().

This is like calling Path.glob() with "**/" added in front of the given relative pattern:

import pathlib


for p in pathlib.Path("src").rglob("*.c"):
    print(p)

See also @taleinat's related post here and a similar post elsewhere.

0
11
import os, glob

for each in glob.glob('path/**/*.c', recursive=True):
    print(f'Name with path: {each} \nName without path: {os.path.basename(each)}')
  • glob.glob('*.c') :matches all files ending in .c in current directory
  • glob.glob('*/*.c') :same as 1
  • glob.glob('**/*.c') :matches all files ending in .c in the immediate subdirectories only, but not in the current directory
  • glob.glob('*.c',recursive=True) :same as 1
  • glob.glob('*/*.c',recursive=True) :same as 3
  • glob.glob('**/*.c',recursive=True) :matches all files ending in .c in the current directory and in all subdirectories
9

In case this may interest anyone, I've profiled the top three proposed methods. I have about ~500K files in the globbed folder (in total), and 2K files that match the desired pattern.

here's the (very basic) code

import glob
import json
import fnmatch
import os
from pathlib import Path
from time import time


def find_files_iglob():
    return glob.iglob("./data/**/data.json", recursive=True)


def find_files_oswalk():
    for root, dirnames, filenames in os.walk('data'):
        for filename in fnmatch.filter(filenames, 'data.json'):
            yield os.path.join(root, filename)

def find_files_rglob():
    return Path('data').rglob('data.json')

t0 = time()
for f in find_files_oswalk(): pass    
t1 = time()
for f in find_files_rglob(): pass
t2 = time()
for f in find_files_iglob(): pass 
t3 = time()
print(t1-t0, t2-t1, t3-t2)

And the results I got were:
os_walk: ~3.6sec
rglob ~14.5sec
iglob: ~16.9sec

The platform: Ubuntu 16.04, x86_64 (core i7),

1
  • Thank you for the benchmark. I ran this on 10k files with Python 3.9.12 and the rankings are the same as in this benchmark (os.walk is fastest), although the difference is not as extreme as it is in your example.
    – mihow
    Aug 16, 2022 at 1:10
7

Recently I had to recover my pictures with the extension .jpg. I ran photorec and recovered 4579 directories 2.2 million files within, having tremendous variety of extensions.With the script below I was able to select 50133 files havin .jpg extension within minutes:

#!/usr/binenv python2.7

import glob
import shutil
import os

src_dir = "/home/mustafa/Masaüstü/yedek"
dst_dir = "/home/mustafa/Genel/media"
for mediafile in glob.iglob(os.path.join(src_dir, "*", "*.jpg")): #"*" is for subdirectory
    shutil.copy(mediafile, dst_dir)
6

based on other answers this is my current working implementation, which retrieves nested xml files in a root directory:

files = []
for root, dirnames, filenames in os.walk(myDir):
    files.extend(glob.glob(root + "/*.xml"))

I'm really having fun with python :)

6

For python 3.5 and later

import glob

#file_names_array = glob.glob('path/*.c', recursive=True)
#above works for files directly at path/ as guided by NeStack

#updated version
file_names_array = glob.glob('path/**/*.c', recursive=True)

further you might need

for full_path_in_src in  file_names_array:
    print (full_path_in_src ) # be like 'abc/xyz.c'
    #Full system path of this would be like => 'path till src/abc/xyz.c'
1
  • 4
    Your first line of code doesn't work for looking into subdirectories. But if you just expand it by /** it works for me, like that: file_names_array = glob.glob('src/**/*.c', recursive=True)
    – NeStack
    Aug 28, 2019 at 12:45
5

Johan and Bruno provide excellent solutions on the minimal requirement as stated. I have just released Formic which implements Ant FileSet and Globs which can handle this and more complicated scenarios. An implementation of your requirement is:

import formic
fileset = formic.FileSet(include="/src/**/*.c")
for file_name in fileset.qualified_files():
    print file_name
1
3

Another way to do it using just the glob module. Just seed the rglob method with a starting base directory and a pattern to match and it will return a list of matching file names.

import glob
import os

def _getDirs(base):
    return [x for x in glob.iglob(os.path.join( base, '*')) if os.path.isdir(x) ]

def rglob(base, pattern):
    list = []
    list.extend(glob.glob(os.path.join(base,pattern)))
    dirs = _getDirs(base)
    if len(dirs):
        for d in dirs:
            list.extend(rglob(os.path.join(base,d), pattern))
    return list
3

Or with a list comprehension:

 >>> base = r"c:\User\xtofl"
 >>> binfiles = [ os.path.join(base,f) 
            for base, _, files in os.walk(root) 
            for f in files if f.endswith(".jpg") ] 
3

If the files are on a remote file system or inside an archive, you can use an implementation of the fsspec AbstractFileSystem class. For example, to list all the files in a zipfile:

from fsspec.implementations.zip import ZipFileSystem
fs = ZipFileSystem("/tmp/test.zip")
fs.glob("/**")  # equivalent: fs.find("/")

or to list all the files in a publicly available S3 bucket:

from s3fs import S3FileSystem
fs_s3 = S3FileSystem(anon=True)
fs_s3.glob("noaa-goes16/ABI-L1b-RadF/2020/045/**")  # or use fs_s3.find

you can also use it for a local filesystem, which may be interesting if your implementation should be filesystem-agnostic:

from fsspec.implementations.local import LocalFileSystem
fs = LocalFileSystem()
fs.glob("/tmp/test/**")

Other implementations include Google Cloud, Github, SFTP/SSH, Dropbox, and Azure. For details, see the fsspec API documentation.

2

Just made this.. it will print files and directory in hierarchical way

But I didn't used fnmatch or walk

#!/usr/bin/python

import os,glob,sys

def dirlist(path, c = 1):

        for i in glob.glob(os.path.join(path, "*")):
                if os.path.isfile(i):
                        filepath, filename = os.path.split(i)
                        print '----' *c + filename

                elif os.path.isdir(i):
                        dirname = os.path.basename(i)
                        print '----' *c + dirname
                        c+=1
                        dirlist(i,c)
                        c-=1


path = os.path.normpath(sys.argv[1])
print(os.path.basename(path))
dirlist(path)
2

That one uses fnmatch or regular expression:

import fnmatch, os

def filepaths(directory, pattern):
    for root, dirs, files in os.walk(directory):
        for basename in files:
            try:
                matched = pattern.match(basename)
            except AttributeError:
                matched = fnmatch.fnmatch(basename, pattern)
            if matched:
                yield os.path.join(root, basename)

# usage
if __name__ == '__main__':
    from pprint import pprint as pp
    import re
    path = r'/Users/hipertracker/app/myapp'
    pp([x for x in filepaths(path, re.compile(r'.*\.py$'))])
    pp([x for x in filepaths(path, '*.py')])
2

In addition to the suggested answers, you can do this with some lazy generation and list comprehension magic:

import os, glob, itertools

results = itertools.chain.from_iterable(glob.iglob(os.path.join(root,'*.c'))
                                               for root, dirs, files in os.walk('src'))

for f in results: print(f)

Besides fitting in one line and avoiding unnecessary lists in memory, this also has the nice side effect, that you can use it in a way similar to the ** operator, e.g., you could use os.path.join(root, 'some/path/*.c') in order to get all .c files in all sub directories of src that have this structure.

2

This is a working code on Python 2.7. As part of my devops work, I was required to write a script which would move the config files marked with live-appName.properties to appName.properties. There could be other extension files as well like live-appName.xml.

Below is a working code for this, which finds the files in the given directories (nested level) and then renames (moves) it to the required filename

def flipProperties(searchDir):
   print "Flipping properties to point to live DB"
   for root, dirnames, filenames in os.walk(searchDir):
      for filename in fnmatch.filter(filenames, 'live-*.*'):
        targetFileName = os.path.join(root, filename.split("live-")[1])
        print "File "+ os.path.join(root, filename) + "will be moved to " + targetFileName
        shutil.move(os.path.join(root, filename), targetFileName)

This function is called from a main script

flipProperties(searchDir)

Hope this helps someone struggling with similar issues.

1

Simplified version of Johan Dahlin's answer, without fnmatch.

import os

matches = []
for root, dirnames, filenames in os.walk('src'):
  matches += [os.path.join(root, f) for f in filenames if f[-2:] == '.c']
1

Here is my solution using list comprehension to search for multiple file extensions recursively in a directory and all subdirectories:

import os, glob

def _globrec(path, *exts):
""" Glob recursively a directory and all subdirectories for multiple file extensions 
    Note: Glob is case-insensitive, i. e. for '\*.jpg' you will get files ending
    with .jpg and .JPG

    Parameters
    ----------
    path : str
        A directory name
    exts : tuple
        File extensions to glob for

    Returns
    -------
    files : list
        list of files matching extensions in exts in path and subfolders

    """
    dirs = [a[0] for a in os.walk(path)]
    f_filter = [d+e for d in dirs for e in exts]    
    return [f for files in [glob.iglob(files) for files in f_filter] for f in files]

my_pictures = _globrec(r'C:\Temp', '\*.jpg','\*.bmp','\*.png','\*.gif')
for f in my_pictures:
    print f
0
import sys, os, glob

dir_list = ["c:\\books\\heap"]

while len(dir_list) > 0:
    cur_dir = dir_list[0]
    del dir_list[0]
    list_of_files = glob.glob(cur_dir+'\\*')
    for book in list_of_files:
        if os.path.isfile(book):
            print(book)
        else:
            dir_list.append(book)
0

I modified the top answer in this posting.. and recently created this script which will loop through all files in a given directory (searchdir) and the sub-directories under it... and prints filename, rootdir, modified/creation date, and size.

Hope this helps someone... and they can walk the directory and get fileinfo.

import time
import fnmatch
import os

def fileinfo(file):
    filename = os.path.basename(file)
    rootdir = os.path.dirname(file)
    lastmod = time.ctime(os.path.getmtime(file))
    creation = time.ctime(os.path.getctime(file))
    filesize = os.path.getsize(file)

    print "%s**\t%s\t%s\t%s\t%s" % (rootdir, filename, lastmod, creation, filesize)

searchdir = r'D:\Your\Directory\Root'
matches = []

for root, dirnames, filenames in os.walk(searchdir):
    ##  for filename in fnmatch.filter(filenames, '*.c'):
    for filename in filenames:
        ##      matches.append(os.path.join(root, filename))
        ##print matches
        fileinfo(os.path.join(root, filename))
0

Here is a solution that will match the pattern against the full path and not just the base filename.

It uses fnmatch.translate to convert a glob-style pattern into a regular expression, which is then matched against the full path of each file found while walking the directory.

re.IGNORECASE is optional, but desirable on Windows since the file system itself is not case-sensitive. (I didn't bother compiling the regex because docs indicate it should be cached internally.)

import fnmatch
import os
import re

def findfiles(dir, pattern):
    patternregex = fnmatch.translate(pattern)
    for root, dirs, files in os.walk(dir):
        for basename in files:
            filename = os.path.join(root, basename)
            if re.search(patternregex, filename, re.IGNORECASE):
                yield filename
-1

I needed a solution for python 2.x that works fast on large directories.
I endet up with this:

import subprocess
foundfiles= subprocess.check_output("ls src/*.c src/**/*.c", shell=True)
for foundfile in foundfiles.splitlines():
    print foundfile

Note that you might need some exception handling in case ls doesn't find any matching file.

3
  • I just realized that ls src/**/*.c only works if globstar option is enabled (shopt -s globstar) - see this answer for details.
    – Roman
    Jun 27, 2017 at 13:44
  • A subprocess is never a good solution if you want to go fast, and ls in scripts is definitely something to avoid.
    – tripleee
    Dec 18, 2020 at 13:46
  • Ok, I didn't know about this. It works for me - and takes less than a second (instead of more than 30 seconds...)
    – Roman
    Dec 19, 2020 at 15:39

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