How can I list all files of a directory in Python and add them to a list?

  • 22
    Related to How to get a list of subdirectories – rds Jan 5 '12 at 9:32
  • 63
    os.listdir(path) returns a list of strings of filenames and subdirectories from the given path, or current if omitted. (Putting this here for people from Google to see because the currently top answer doesn't answer the question.) – Apollys May 2 '17 at 15:54
  • 3
    All files only? Do you want to list subdirectories? – Aleksandar Jovanovic Jul 5 '17 at 11:11
  • This works nicely (top answer below): from os import listdir from os.path import isfile, join files = [f for f in listdir(mypath) if isfile(join(mypath, f))] Note: you need to assign a string to the directory path where the files are stored (ex: mypath = "users/name/desktop/"). – Arshin Apr 2 at 18:12
  • Do you mean files as: Ordinary files that aren't sub-directories or links, or all files, including sub-directories and links? – Mulliganaceous May 3 at 7:53

22 Answers 22

os.listdir() will get you everything that's in a directory - files and directories.

If you want just files, you could either filter this down using os.path:

from os import listdir
from os.path import isfile, join
onlyfiles = [f for f in listdir(mypath) if isfile(join(mypath, f))]

or you could use os.walk() which will yield two lists for each directory it visits - splitting into files and dirs for you. If you only want the top directory you can just break the first time it yields

from os import walk

f = []
for (dirpath, dirnames, filenames) in walk(mypath):

And lastly, as that example shows, adding one list to another you can either use .extend() or

>>> q = [1, 2, 3]
>>> w = [4, 5, 6]
>>> q = q + w
>>> q
[1, 2, 3, 4, 5, 6]

Personally, I prefer .extend()

  • 5
    Doesn't seem to work on Windows with unicode file names for some reason. – cdiggins Jun 14 '13 at 16:21
  • 46
    A bit simpler: (_, _, filenames) = walk(mypath).next() (if you are confident that the walk will return at least one value, which it should.) – misterbee Jul 14 '13 at 20:56
  • 6
    Slight modification to store full paths: for (dirpath, dirnames, filenames) in os.walk(mypath): checksum_files.extend(os.path.join(dirpath, filename) for filename in filenames) break – okigan Sep 23 '13 at 21:31
  • 105
    f.extend(filenames) is not actually equivalent to f = f + filenames. extend will modify f in-place, whereas adding creates a new list in a new memory location. This means extend is generally more efficient than +, but it can sometimes lead to confusion if multiple objects hold references to the list. Lastly, it's worth noting that f += filenames is equivalent to f.extend(filenames), not f = f + filenames. – Benjamin Hodgson Oct 22 '13 at 8:55
  • 19
    @misterbee, your solution is the best, just one small improvement: _, _, filenames = next(walk(mypath), (None, None, [])) – bgusach Mar 5 '15 at 7:36

I prefer using the glob module, as it does pattern matching and expansion.

import glob

It will return a list with the queried files:

['/home/adam/file1.txt', '/home/adam/file2.txt', .... ]
import os

will return a list of all files and directories in "somedirectory".

  • 9
    This returns the relative path of the files, as compared with the full path returned by glob.glob – xji May 17 '16 at 14:32
  • 12
    @JIXiang: os.listdir() always returns mere filenames (not relative paths). What glob.glob() returns is driven by the path format of the input pattern. – mklement0 Nov 30 '16 at 18:14
  • os.listdir() - > It always list the dir and file inside the provided location . Is there any way to list only directory not files ? – RonyA May 22 at 15:44

Get a list of files with Python 2 and 3

I have also made a short video here: Python: how to get a list of file in a directory


or..... how to get all the files (and directories) in current directory (Python 3)

The simplest way to have the file in the current directory in Python 3 is this. It's really simple; use the os module and the listdir() function and you'll have the file in that directory (and eventual folders that are in the directory, but you will not have the file in the subdirectory, for that you can use walk - I will talk about it later).

>>> import os
>>> arr = os.listdir()
>>> arr
['$RECYCLE.BIN', 'work.txt', '3ebooks.txt', 'documents']

Using glob

I found glob easier to select file of the same type or with something in common. Look at the following example:

import glob

txtfiles = []
for file in glob.glob("*.txt"):

Using list comprehension

import glob

mylist = [f for f in glob.glob("*.txt")]

Getting the full path name with os.path.abspath

As you noticed, you don't have the full path of the file in the code above. If you need to have the absolute path, you can use another function of the os.path module called _getfullpathname, putting the file that you get from os.listdir() as an argument. There are other ways to have the full path, as we will check later (I replaced, as suggested by mexmex, _getfullpathname with abspath).

>>> import os
>>> files_path = [os.path.abspath(x) for x in os.listdir()]
>>> files_path
['F:\\documenti\applications.txt', 'F:\\documenti\collections.txt']

Get the full path name of a type of file into all subdirectories with walk

I find this very useful to find stuff in many directories, and it helped me finding a file about which I didn't remember the name:

import os

# Getting the current work directory (cwd)
thisdir = os.getcwd()

# r=root, d=directories, f = files
for r, d, f in os.walk(thisdir):
    for file in f:
        if ".docx" in file:
            print(os.path.join(r, file))

os.listdir(): get files in the current directory (Python 2)

In Python 2 you, if you want the list of the files in the current directory, you have to give the argument as '.' or os.getcwd() in the os.listdir method.

>>> import os
>>> arr = os.listdir('.')
>>> arr
['$RECYCLE.BIN', 'work.txt', '3ebooks.txt', 'documents']

To go up in the directory tree

>>> # Method 1
>>> x = os.listdir('..')

# Method 2
>>> x= os.listdir('/')

Get files: os.listdir() in a particular directory (Python 2 and 3)

>>> import os
>>> arr = os.listdir('F:\\python')
>>> arr
['$RECYCLE.BIN', 'work.txt', '3ebooks.txt', 'documents']

Get files of a particular subdirectory with os.listdir()

import os

x = os.listdir("./content")

os.walk('.') - current directory

>>> import os
>>> arr = next(os.walk('.'))[2]
>>> arr
['5bs_Turismo1.pdf', '5bs_Turismo1.pptx', 'esperienza.txt']

glob module - all files

import glob

out:['content', '']

next(os.walk('.')) and os.path.join('dir','file')

>>> import os
>>> arr = []
>>> for d,r,f in next(os.walk("F:\_python")):
>>>     for file in f:
>>>         arr.append(os.path.join(r,file))
>>> for f in arr:
>>>     print(files)



next(os.walk('F:\') - get the full path - list comprehension

>>> [os.path.join(r,file) for r,d,f in next(os.walk("F:\\_python")) for file in f]
['F:\\_python\\', 'F:\\_python\\programmi.txt']

os.walk - get full path - all files in sub dirs

x = [os.path.join(r,file) for r,d,f in os.walk("F:\\_python") for file in f]

['F:\\_python\\', 'F:\\_python\\progr.txt', 'F:\\_python\\']

os.listdir() - get only txt files

>>> arr_txt = [x for x in os.listdir() if x.endswith(".txt")]
>>> print(arr_txt)
['work.txt', '3ebooks.txt']

glob - get only txt files

>>> import glob
>>> x = glob.glob("*.txt")
>>> x
['ale.txt', 'alunni2015.txt', 'assenze.text.txt', 'text2.txt', 'untitled.txt']

Using glob to get the full path of the files

If I should need the absolute path of the files:

>>> from path import path
>>> from glob import glob
>>> x = [path(f).abspath() for f in glob("F:\*.txt")]
>>> for f in x:
...  print(f)

Other use of glob

If I want all the files in the directory:

>>> x = glob.glob("*")

Using os.path.isfile to avoid directories in the list

import os.path
listOfFiles = [f for f in os.listdir() if os.path.isfile(f)]

> output

['a simple', 'data.txt', '']

Using pathlib from (Python 3.4)

import pathlib

>>> flist = []
>>> for p in pathlib.Path('.').iterdir():
...  if p.is_file():
...   print(p)
...   flist.append(p)

If you want to use list comprehension

>>> flist = [p for p in pathlib.Path('.').iterdir() if p.is_file()]

*You can use also just pathlib.Path() instead of pathlib.Path(".")

Use glob method in pathlib.Path()

import pathlib

py = pathlib.Path().glob("*.py")
for file in py:


Get all and only files with os.walk

import os
x = [i[2] for i in os.walk('.')]
for t in x:
    for f in t:

>>> y
['', 'data.txt', 'data1.txt', 'data2.txt', 'data_180617', '', '', '', '', '', '', 'data.txt', 'data1.txt', 'data_180617']

Get only files with next and walk in a directory

>>> import os
>>> x = next(os.walk('F://python'))[2]
>>> x

Get only directories with next and walk in a directory

>>> import os
>>> next(os.walk('F://python'))[1] # for the current dir use ('.')

Get all the subdir names with walk

>>> for r,d,f in os.walk("F:\_python"):
...  for dirs in d:
...   print(dirs)

os.scandir() from Python 3.5 on

>>> import os
>>> x = [ for f in os.scandir() if f.is_file()]
>>> x

# Another example with scandir (a little variation from
# This one is more efficient than os.listdir.
# In this case, it shows the files only in the current directory
# where the script is executed.

>>> import os
>>> with os.scandir() as i:
...  for entry in i:
...   if entry.is_file():
...    print(

Ex. 1: How many files are there in the subdirectories?

In this example, we look for the number of files that are included in all the directory and its subdirectories.

import os

def count(dir, counter=0):
    "returns number of files in dir and subdirs"
    for pack in os.walk(dir):
        for f in pack[2]:
            counter += 1
    return dir + " : " + str(counter) + "files"


> output

>'F:\\\python' : 12057 files'

Ex.2: How to copy all files from a directory to another?

A script to make order in your computer finding all files of a type (default: pptx) and copying them in a new folder.

import os
import shutil
from path import path

destination = "F:\\file_copied"
# os.makedirs(destination)

def copyfile(dir, filetype='pptx', counter=0):
    "Searches for pptx (or other - pptx is the default) files and copies them"
    for pack in os.walk(dir):
        for f in pack[2]:
            if f.endswith(filetype):
                fullpath = pack[0] + "\\" + f
                shutil.copy(fullpath, destination)
                counter += 1
    if counter > 0:
        print("\t==> Found in: `" + dir + "` : " + str(counter) + " files\n")

for dir in os.listdir():
    "searches for folders that starts with `_`"
    if dir[0] == '_':
        # copyfile(dir, filetype='pdf')
        copyfile(dir, filetype='txt')

> Output

_compiti18\Compito Contabilità 1\conti.txt
_compiti18\Compito Contabilità 1\modula4.txt
_compiti18\Compito Contabilità 1\moduloa4.txt
==> Found in: `_compiti18` : 3 files

Ex. 3: How to get all the files in a txt file

In case you want to create a txt file with all the file names:

import os
mylist = ""
with open("filelist.txt", "w", encoding="utf-8") as file:
    for eachfile in os.listdir():
        mylist += eachfile + "\n"

Example: txt with all the files of an hard drive

"""We are going to save a txt file with all the files in your directory.
We will use the function walk()


import os

# see all the methods of os
# print(*dir(os), sep=", ")
listafile = []
percorso = []
with open("lista_file.txt", "w", encoding='utf-8') as testo:
    for root, dirs, files in os.walk("D:\\"):
        for file in files:
            percorso.append(root + "\\" + file)
            testo.write(file + "\n")
print("N. of files", len(listafile))
with open("lista_file_ordinata.txt", "w", encoding="utf-8") as testo_ordinato:
    for file in listafile:
        testo_ordinato.write(file + "\n")

with open("percorso.txt", "w", encoding="utf-8") as file_percorso:
    for file in percorso:
        file_percorso.write(file + "\n")


All the file of C:\\ in one text file

This is a shorter version of the previous code. Change the folder where to start finding the files if you need to start from another position. This code generate a 50 mb on text file on my computer with something less then 500.000 lines with files with the complete path.

import os

with open("file.txt", "w", encoding="utf-8") as filewrite:
    for r, d, f in os.walk("C:\\"):
        for file in f:
            filewrite.write(f"{r + file}\n")    

A function to search for a certain type of file

import os

def searchfiles(extension='.ttf'):
    "Create a txt file with all the file of a type"
    with open("file.txt", "w", encoding="utf-8") as filewrite:
        for r, d, f in os.walk("C:\\"):
            for file in f:
                if file.endswith(extension):
                    filewrite.write(f"{r + file}\n")

# looking for ttf file (fonts)
  • 2
    You should include the path argument to listdir. – Alejandro Sazo Jan 3 '17 at 15:47
  • 2
    It's definitely encouraged to include some context/explanation for code as that makes the answer more useful. – EJoshuaS Jan 3 '17 at 16:07
  • 2
    I agree, but I did not notice something also, that python2 requires the argument whilst python3 is optional, If you improve the answer for both python versions would be great :) – Alejandro Sazo Jan 3 '17 at 16:44
  • 1
    Ok, I went into Python 2 and find the differences and I edited the post. – Giovanni Gianni Jan 18 '17 at 21:16
  • 1
    There is no reason to do [f for f in os.listdir()]; os.listdir() already returns a list, so that's just needlessly copying the original list before throwing it away. – ShadowRanger May 6 '17 at 0:08

A one-line solution to get only list of files (no subdirectories):

filenames = next(os.walk(path))[2]

or absolute pathnames:

paths = [os.path.join(path,fn) for fn in next(os.walk(path))[2]]
  • 6
    Only a one-liner if you've already import os. Seems less concise than glob() to me. – ArtOfWarfare Nov 28 '14 at 20:22
  • 3
    problem with glob is that a folder called 'something.something' would be returned by glob('/home/adam/*.*') – Remi Dec 1 '14 at 9:08
  • 2
    On OS X, there's something called a bundle. It's a directory which should generally be treated as a file (like a .tar). Would you want those treated as a file or a directory? Using glob() would treat it as a file. Your method would treat it as a directory. – ArtOfWarfare Dec 1 '14 at 19:44

Getting Full File Paths From a Directory and All Its Subdirectories

import os

def get_filepaths(directory):
    This function will generate the file names in a directory 
    tree by walking the tree either top-down or bottom-up. For each 
    directory in the tree rooted at directory top (including top itself), 
    it yields a 3-tuple (dirpath, dirnames, filenames).
    file_paths = []  # List which will store all of the full filepaths.

    # Walk the tree.
    for root, directories, files in os.walk(directory):
        for filename in files:
            # Join the two strings in order to form the full filepath.
            filepath = os.path.join(root, filename)
            file_paths.append(filepath)  # Add it to the list.

    return file_paths  # Self-explanatory.

# Run the above function and store its results in a variable.   
full_file_paths = get_filepaths("/Users/johnny/Desktop/TEST")

  • The path I provided in the above function contained 3 files— two of them in the root directory, and another in a subfolder called "SUBFOLDER." You can now do things like:
  • print full_file_paths which will print the list:

    • ['/Users/johnny/Desktop/TEST/file1.txt', '/Users/johnny/Desktop/TEST/file2.txt', '/Users/johnny/Desktop/TEST/SUBFOLDER/file3.dat']

If you'd like, you can open and read the contents, or focus only on files with the extension ".dat" like in the code below:

for f in full_file_paths:
  if f.endswith(".dat"):
    print f


Since version 3.4 there are builtin iterators for this which are a lot more efficient than os.listdir():

pathlib: New in version 3.4.

>>> import pathlib
>>> [p for p in pathlib.Path('.').iterdir() if p.is_file()]

According to PEP 428, the aim of the pathlib library is to provide a simple hierarchy of classes to handle filesystem paths and the common operations users do over them.

os.scandir(): New in version 3.5.

>>> import os
>>> [entry for entry in os.scandir('.') if entry.is_file()]

Note that os.walk() uses os.scandir() instead of os.listdir() from version 3.5, and its speed got increased by 2-20 times according to PEP 471.

Let me also recommend reading ShadowRanger's comment below.

  • Thanks! I think it is the only solution not returning directly a list. Could use instead of the first p alternatively if preferred. – JeromeJ Jun 22 '15 at 12:36
  • 1
    Welcome! I would prefer generating pathlib.Path() instances since they have many useful methods I would not want to waste waste. You can also call str(p) on them for path names. – SzieberthAdam Jul 13 '15 at 14:56
  • 4
    Note: The os.scandir solution is going to be more efficient than os.listdir with an os.path.is_file check or the like, even if you need a list (so you don't benefit from lazy iteration), because os.scandir uses OS provided APIs that give you the is_file information for free as it iterates, no per-file round trip to the disk to stat them at all (on Windows, the DirEntrys get you complete stat info for free, on *NIX systems it needs to stat for info beyond is_file, is_dir, etc., but DirEntry caches on first stat for convenience). – ShadowRanger Nov 20 '15 at 22:38
  • I've found this to be the most helpful solution (using pathlib). I can easily get specific extension types and absolute paths. Thank you! – HEADLESS_0NE Mar 17 '16 at 15:33
  • 1
    You can also use to get only the file name, or entry.path to get its full path. No more os.path.join() all over the place. – user136036 Mar 28 '17 at 20:26

I really liked adamk's answer, suggesting that you use glob(), from the module of the same name. This allows you to have pattern matching with *s.

But as other people pointed out in the comments, glob() can get tripped up over inconsistent slash directions. To help with that, I suggest you use the join() and expanduser() functions in the os.path module, and perhaps the getcwd() function in the os module, as well.

As examples:

from glob import glob

# Return everything under C:\Users\admin that contains a folder called wlp.

The above is terrible - the path has been hardcoded and will only ever work on Windows between the drive name and the \s being hardcoded into the path.

from glob    import glob
from os.path import join

# Return everything under Users, admin, that contains a folder called wlp.
glob(join('Users', 'admin', '*', 'wlp'))

The above works better, but it relies on the folder name Users which is often found on Windows and not so often found on other OSs. It also relies on the user having a specific name, admin.

from glob    import glob
from os.path import expanduser, join

# Return everything under the user directory that contains a folder called wlp.
glob(join(expanduser('~'), '*', 'wlp'))

This works perfectly across all platforms.

Another great example that works perfectly across platforms and does something a bit different:

from glob    import glob
from os      import getcwd
from os.path import join

# Return everything under the current directory that contains a folder called wlp.
glob(join(getcwd(), '*', 'wlp'))

Hope these examples help you see the power of a few of the functions you can find in the standard Python library modules.

def list_files(path):
    # returns a list of names (with extension, without full path) of all files 
    # in folder path
    files = []
    for name in os.listdir(path):
        if os.path.isfile(os.path.join(path, name)):
    return files 

Preliminary notes

  • Although there's a clear differentiation between file and directory terms in the question text, some may argue that directories are actually special files
  • The statement: "all files of a directory" can be interpreted in two ways:
    1. All direct (or level 1) descendants only
    2. All descendants in the whole directory tree (including the ones in sub-directories)
  • When the question was asked, I imagine that Python 2, was the LTS version, however the code samples will be run by Python 3(.5) (I'll keep them as Python 2 compliant as possible; also, any code belonging to Python that I'm going to post, is from v3.5.4 - unless otherwise specified). That has consequences related to another keyword in the question: "add them into a list":

    • In pre Python 2.2 versions, sequences (iterables) were mostly represented by lists (tuples, sets, ...)
    • In Python 2.2, the concept of generator ([Python.Wiki]: Generators) - courtesy of [Python 3]: The yield statement) - was introduced. As time passed, generator counterparts started to appear for functions that returned/worked with lists
    • In Python 3, generator is the default behavior
    • Not sure if returning a list is still mandatory (or a generator would do as well), but passing a generator to the list constructor, will create a list out of it (and also consume it). The example below illustrates the differences on [Python 3]: map(function, iterable, ...)
    >>> import sys
    >>> sys.version
    '2.7.10 (default, Mar  8 2016, 15:02:46) [MSC v.1600 64 bit (AMD64)]'
    >>> m = map(lambda x: x, [1, 2, 3])  # Just a dummy lambda function
    >>> m, type(m)
    ([1, 2, 3], <type 'list'>)
    >>> len(m)

    >>> import sys
    >>> sys.version
    '3.5.4 (v3.5.4:3f56838, Aug  8 2017, 02:17:05) [MSC v.1900 64 bit (AMD64)]'
    >>> m = map(lambda x: x, [1, 2, 3])
    >>> m, type(m)
    (<map object at 0x000001B4257342B0>, <class 'map'>)
    >>> len(m)
    Traceback (most recent call last):
      File "<stdin>", line 1, in <module>
    TypeError: object of type 'map' has no len()
    >>> lm0 = list(m)  # Build a list from the generator
    >>> lm0, type(lm0)
    ([1, 2, 3], <class 'list'>)
    >>> lm1 = list(m)  # Build a list from the same generator
    >>> lm1, type(lm1)  # Empty list now - generator already consumed
    ([], <class 'list'>)
  • The examples will be based on a directory called root_dir with the following structure (this example is for Win, but I'm using the same tree on Lnx as well):

    E:\Work\Dev\StackOverflow\q003207219>tree /f "root_dir"
    Folder PATH listing for volume Work
    Volume serial number is 00000029 3655:6FED
    ¦   file0
    ¦   file1
    ¦   +---dir00
    ¦   ¦   ¦   file000
    ¦   ¦   ¦
    ¦   ¦   +---dir000
    ¦   ¦           file0000
    ¦   ¦
    ¦   +---dir01
    ¦   ¦       file010
    ¦   ¦       file011
    ¦   ¦
    ¦   +---dir02
    ¦       +---dir020
    ¦           +---dir0200
    ¦       file10
    ¦       file11
    ¦       file12
    ¦   ¦   file20
    ¦   ¦
    ¦   +---dir20
    ¦           file200


Programmatic approaches:

  1. [Python 3]: os.listdir(path='.')

    Return a list containing the names of the entries in the directory given by path. The list is in arbitrary order, and does not include the special entries '.' and '..' ...

    >>> import os
    >>> root_dir = "root_dir"  # Path relative to current dir (os.getcwd())
    >>> os.listdir(root_dir)  # List all the items in root_dir
    ['dir0', 'dir1', 'dir2', 'dir3', 'file0', 'file1']
    >>> [item for item in os.listdir(root_dir) if os.path.isfile(os.path.join(root_dir, item))]  # Filter items and only keep files (strip out directories)
    ['file0', 'file1']

    A more elaborate example (

    import os
    from pprint import pformat
    def _get_dir_content(path, include_folders, recursive):
        entries = os.listdir(path)
        for entry in entries:
            entry_with_path = os.path.join(path, entry)
            if os.path.isdir(entry_with_path):
                if include_folders:
                    yield entry_with_path
                if recursive:
                    for sub_entry in _get_dir_content(entry_with_path, include_folders, recursive):
                        yield sub_entry
                yield entry_with_path
    def get_dir_content(path, include_folders=True, recursive=True, prepend_folder_name=True):
        path_len = len(path) + len(os.path.sep)
        for item in _get_dir_content(path, include_folders, recursive):
            yield item if prepend_folder_name else item[path_len:]
    def _get_dir_content_old(path, include_folders, recursive):
        entries = os.listdir(path)
        ret = list()
        for entry in entries:
            entry_with_path = os.path.join(path, entry)
            if os.path.isdir(entry_with_path):
                if include_folders:
                if recursive:
                    ret.extend(_get_dir_content_old(entry_with_path, include_folders, recursive))
        return ret
    def get_dir_content_old(path, include_folders=True, recursive=True, prepend_folder_name=True):
        path_len = len(path) + len(os.path.sep)
        return [item if prepend_folder_name else item[path_len:] for item in _get_dir_content_old(path, include_folders, recursive)]
    def main():
        root_dir = "root_dir"
        ret0 = get_dir_content(root_dir, include_folders=True, recursive=True, prepend_folder_name=True)
        lret0 = list(ret0)
        print(ret0, len(lret0), pformat(lret0))
        ret1 = get_dir_content_old(root_dir, include_folders=False, recursive=True, prepend_folder_name=False)
        print(len(ret1), pformat(ret1))
    if __name__ == "__main__":


    • There are two implementations:
      • One that uses generators (of course here it seems useless, since I immediately convert the result to a list)
      • The classic one (function names ending in _old)
    • Recursion is used (to get into subdirectories)
    • For each implementation there are two functions:
      • One that starts with an underscore (_): "private" (should not be called directly) - that does all the work
      • The public one (wrapper over previous): it just strips off the initial path (if required) from the returned entries. It's an ugly implementation, but it's the only idea that I could come with at this point
    • In terms of performance, generators are generally a little bit faster (considering both creation and iteration times), but I didn't test them in recursive functions, and also I am iterating inside the function over inner generators - don't know how performance friendly is that
    • Play with the arguments to get different results


    (py35x64_test) E:\Work\Dev\StackOverflow\q003207219>"e:\Work\Dev\VEnvs\py35x64_test\Scripts\python.exe" ""
    <generator object get_dir_content at 0x000001BDDBB3DF10> 22 ['root_dir\\dir0',
    11 ['dir0\\dir00\\dir000\\file0000',

  1. [Python 3]: os.scandir(path='.') (Python 3.5+, backport: [Pypi]: scandir)

    Return an iterator of os.DirEntry objects corresponding to the entries in the directory given by path. The entries are yielded in arbitrary order, and the special entries '.' and '..' are not included.

    Using scandir() instead of listdir() can significantly increase the performance of code that also needs file type or file attribute information, because os.DirEntry objects expose this information if the operating system provides it when scanning a directory. All os.DirEntry methods may perform a system call, but is_dir() and is_file() usually only require a system call for symbolic links; os.DirEntry.stat() always requires a system call on Unix but only requires one for symbolic links on Windows.

    >>> import os
    >>> root_dir = os.path.join(".", "root_dir")  # Explicitly prepending current directory
    >>> root_dir
    >>> scandir_iterator = os.scandir(root_dir)
    >>> scandir_iterator
    <nt.ScandirIterator object at 0x00000268CF4BC140>
    >>> [item.path for item in scandir_iterator]
    ['.\\root_dir\\dir0', '.\\root_dir\\dir1', '.\\root_dir\\dir2', '.\\root_dir\\dir3', '.\\root_dir\\file0', '.\\root_dir\\file1']
    >>> [item.path for item in scandir_iterator]  # Will yield an empty list as it was consumed by previous iteration (automatically performed by the list comprehension)
    >>> scandir_iterator = os.scandir(root_dir)  # Reinitialize the generator
    >>> for item in scandir_iterator :
    ...     if os.path.isfile(item.path):
    ...             print(


    • It's similar to os.listdir
    • But it's also more flexible (and offers more functionality), more Pythonic (and in some cases, faster)

  1. [Python 3]: os.walk(top, topdown=True, onerror=None, followlinks=False)

    Generate the file names in a directory tree by walking the tree either top-down or bottom-up. For each directory in the tree rooted at directory top (including top itself), it yields a 3-tuple (dirpath, dirnames, filenames).

    >>> import os
    >>> root_dir = os.path.join(os.getcwd(), "root_dir")  # Specify the full path
    >>> root_dir
    >>> walk_generator = os.walk(root_dir)
    >>> root_dir_entry = next(walk_generator)  # First entry corresponds to the root dir (passed as an argument)
    >>> root_dir_entry
    ('E:\\Work\\Dev\\StackOverflow\\q003207219\\root_dir', ['dir0', 'dir1', 'dir2', 'dir3'], ['file0', 'file1'])
    >>> root_dir_entry[1] + root_dir_entry[2]  # Display dirs and files (direct descendants) in a single list
    ['dir0', 'dir1', 'dir2', 'dir3', 'file0', 'file1']
    >>> [os.path.join(root_dir_entry[0], item) for item in root_dir_entry[1] + root_dir_entry[2]]  # Display all the entries in the previous list by their full path
    ['E:\\Work\\Dev\\StackOverflow\\q003207219\\root_dir\\dir0', 'E:\\Work\\Dev\\StackOverflow\\q003207219\\root_dir\\dir1', 'E:\\Work\\Dev\\StackOverflow\\q003207219\\root_dir\\dir2', 'E:\\Work\\Dev\\StackOverflow\\q003207219\\root_dir\\dir3', 'E:\\Work\\Dev\\StackOverflow\\q003207219\\root_dir\\file0', 'E:\\Work\\Dev\\StackOverflow\\q003207219\\root_dir\\file1']
    >>> for entry in walk_generator:  # Display the rest of the elements (corresponding to every subdir)
    ...     print(entry)
    ('E:\\Work\\Dev\\StackOverflow\\q003207219\\root_dir\\dir0', ['dir00', 'dir01', 'dir02'], [])
    ('E:\\Work\\Dev\\StackOverflow\\q003207219\\root_dir\\dir0\\dir00', ['dir000'], ['file000'])
    ('E:\\Work\\Dev\\StackOverflow\\q003207219\\root_dir\\dir0\\dir00\\dir000', [], ['file0000'])
    ('E:\\Work\\Dev\\StackOverflow\\q003207219\\root_dir\\dir0\\dir01', [], ['file010', 'file011'])
    ('E:\\Work\\Dev\\StackOverflow\\q003207219\\root_dir\\dir0\\dir02', ['dir020'], [])
    ('E:\\Work\\Dev\\StackOverflow\\q003207219\\root_dir\\dir0\\dir02\\dir020', ['dir0200'], [])
    ('E:\\Work\\Dev\\StackOverflow\\q003207219\\root_dir\\dir0\\dir02\\dir020\\dir0200', [], [])
    ('E:\\Work\\Dev\\StackOverflow\\q003207219\\root_dir\\dir1', [], ['file10', 'file11', 'file12'])
    ('E:\\Work\\Dev\\StackOverflow\\q003207219\\root_dir\\dir2', ['dir20'], ['file20'])
    ('E:\\Work\\Dev\\StackOverflow\\q003207219\\root_dir\\dir2\\dir20', [], ['file200'])
    ('E:\\Work\\Dev\\StackOverflow\\q003207219\\root_dir\\dir3', [], [])


    • Under the scenes, it uses os.scandir (os.listdir on older versions)
    • It does the heavy lifting by recurring in subfolders

  1. [Python 3]: glob.glob(pathname, *, recursive=False) ([Python 3]: glob.iglob(pathname, *, recursive=False))

    Return a possibly-empty list of path names that match pathname, which must be a string containing a path specification. pathname can be either absolute (like /usr/src/Python-1.5/Makefile) or relative (like ../../Tools/*/*.gif), and can contain shell-style wildcards. Broken symlinks are included in the results (as in the shell).
    Changed in version 3.5: Support for recursive globs using “**”.

    >>> import glob, os
    >>> wildcard_pattern = "*"
    >>> root_dir = os.path.join("root_dir", wildcard_pattern)  # Match every file/dir name
    >>> root_dir
    >>> glob_list = glob.glob(root_dir)
    >>> glob_list
    ['root_dir\\dir0', 'root_dir\\dir1', 'root_dir\\dir2', 'root_dir\\dir3', 'root_dir\\file0', 'root_dir\\file1']
    >>> [item.replace("root_dir" + os.path.sep, "") for item in glob_list]  # Strip the dir name and the path separator from begining
    ['dir0', 'dir1', 'dir2', 'dir3', 'file0', 'file1']
    >>> for entry in glob.iglob(root_dir + "*", recursive=True):
    ...     print(entry)


    • Uses os.listdir
    • For large trees (especially if recursive is on), iglob is preferred
    • Allows advanced filtering based on name (due to the wildcard)

  1. [Python 3]: class pathlib.Path(*pathsegments) (Python 3.4+, backport: [Pypi]: pathlib2)

    >>> import pathlib
    >>> root_dir = "root_dir"
    >>> root_dir_instance = pathlib.Path(root_dir)
    >>> root_dir_instance
    >>> root_dir_instance.is_dir()
    >>> [ for item in root_dir_instance.glob("*")]  # Wildcard searching for all direct descendants
    ['dir0', 'dir1', 'dir2', 'dir3', 'file0', 'file1']
    >>> [os.path.join(, for item in root_dir_instance.glob("*") if not item.is_dir()]  # Display paths (including parent) for files only
    ['root_dir\\file0', 'root_dir\\file1']


    • This is one way of achieving our goal
    • It's the OOP style of handling paths
    • Offers lots of functionalities

  1. [Python 2]: dircache.listdir(path) (Python 2 only)

    def listdir(path):
        """List directory contents, using cache."""
            cached_mtime, list = cache[path]
            del cache[path]
        except KeyError:
            cached_mtime, list = -1, []
        mtime = os.stat(path).st_mtime
        if mtime != cached_mtime:
            list = os.listdir(path)
        cache[path] = mtime, list
        return list

  1. [man7]: OPENDIR(3) / [man7]: READDIR(3) / [man7]: CLOSEDIR(3) via [Python 3]: ctypes - A foreign function library for Python (POSIX specific)

    ctypes is a foreign function library for Python. It provides C compatible data types, and allows calling functions in DLLs or shared libraries. It can be used to wrap these libraries in pure Python.

    #!/usr/bin/env python3
    import sys
    from ctypes import Structure, \
        c_ulonglong, c_longlong, c_ushort, c_ubyte, c_char, c_int, \
        CDLL, POINTER, \
        create_string_buffer, get_errno, set_errno, cast
    DT_DIR = 4
    DT_REG = 8
    char256 = c_char * 256
    class LinuxDirent64(Structure):
        _fields_ = [
            ("d_ino", c_ulonglong),
            ("d_off", c_longlong),
            ("d_reclen", c_ushort),
            ("d_type", c_ubyte),
            ("d_name", char256),
    LinuxDirent64Ptr = POINTER(LinuxDirent64)
    libc_dll = this_process = CDLL(None, use_errno=True)
    # ALWAYS set argtypes and restype for functions, otherwise it's UB!!!
    opendir = libc_dll.opendir
    readdir = libc_dll.readdir
    closedir = libc_dll.closedir
    def get_dir_content(path):
        ret = [path, list(), list()]
        dir_stream = opendir(create_string_buffer(path.encode()))
        if (dir_stream == 0):
            print("opendir returned NULL (errno: {:d})".format(get_errno()))
            return ret
        dirent_addr = readdir(dir_stream)
        while dirent_addr:
            dirent_ptr = cast(dirent_addr, LinuxDirent64Ptr)
            dirent = dirent_ptr.contents
            name = dirent.d_name.decode()
            if dirent.d_type & DT_DIR:
                if name not in (".", ".."):
            elif dirent.d_type & DT_REG:
            dirent_addr = readdir(dir_stream)
        if get_errno():
            print("readdir returned NULL (errno: {:d})".format(get_errno()))
        return ret
    def main():
        print("{:s} on {:s}\n".format(sys.version, sys.platform))
        root_dir = "root_dir"
        entries = get_dir_content(root_dir)
    if __name__ == "__main__":


    • It loads the three functions from libc (loaded in the current process) and calls them (for more details check [SO]: How do I check whether a file exists without exceptions? (@CristiFati's answer) - last notes from item #4.). That would place this approach very close to the Python / C edge
    • LinuxDirent64 is the ctypes representation of struct dirent64 from [man7]: dirent.h(0P) (so are the DT_ constants) from my machine: Ubtu 16 x64 (4.10.0-40-generic and libc6-dev:amd64). On other flavors/versions, the struct definition might differ, and if so, the ctypes alias should be updated, otherwise it will yield Undefined Behavior
    • It returns data in the os.walk's format. I didn't bother to make it recursive, but starting from the existing code, that would be a fairly trivial task
    • Everything is doable on Win as well, the data (libraries, functions, structs, constants, ...) differ


    [cfati@cfati-ubtu16x64-0:~/Work/Dev/StackOverflow/q003207219]> ./
    3.5.2 (default, Nov 12 2018, 13:43:14)
    [GCC 5.4.0 20160609] on linux
    ['root_dir', ['dir2', 'dir1', 'dir3', 'dir0'], ['file1', 'file0']]

  1. [ActiveState]: win32file.FindFilesW (Win specific)

    Retrieves a list of matching filenames, using the Windows Unicode API. An interface to the API FindFirstFileW/FindNextFileW/Find close functions.

    >>> import os, win32file, win32con
    >>> root_dir = "root_dir"
    >>> wildcard = "*"
    >>> root_dir_wildcard = os.path.join(root_dir, wildcard)
    >>> entry_list = win32file.FindFilesW(root_dir_wildcard)
    >>> len(entry_list)  # Don't display the whole content as it's too long
    >>> [entry[-2] for entry in entry_list]  # Only display the entry names
    ['.', '..', 'dir0', 'dir1', 'dir2', 'dir3', 'file0', 'file1']
    >>> [entry[-2] for entry in entry_list if entry[0] & win32con.FILE_ATTRIBUTE_DIRECTORY and entry[-2] not in (".", "..")]  # Filter entries and only display dir names (except self and parent)
    ['dir0', 'dir1', 'dir2', 'dir3']
    >>> [os.path.join(root_dir, entry[-2]) for entry in entry_list if entry[0] & (win32con.FILE_ATTRIBUTE_NORMAL | win32con.FILE_ATTRIBUTE_ARCHIVE)]  # Only display file "full" names
    ['root_dir\\file0', 'root_dir\\file1']


  1. Install some (other) third-party package that does the trick
    • Most likely, will rely on one (or more) of the above (maybe with slight customizations)


  • Code is meant to be portable (except places that target a specific area - which are marked) or cross:

    • platform (Ux, Win, )
    • Python version (2, 3, )
  • Multiple path styles (absolute, relatives) were used across the above variants, to illustrate the fact that the "tools" used are flexible in this direction

  • os.listdir and os.scandir use opendir / readdir / closedir ([MS.Docs]: FindFirstFileW function / [MS.Docs]: FindNextFileW function / [MS.Docs]: FindClose function) (via [GitHub]: python/cpython - (master) cpython/Modules/posixmodule.c)

  • win32file.FindFilesW uses those (Win specific) functions as well (via [GitHub]: mhammond/pywin32 - (master) pywin32/win32/src/win32file.i)

  • _get_dir_content (from point #1.) can be implemented using any of these approaches (some will require more work and some less)

    • Some advanced filtering (instead of just file vs. dir) could be done: e.g. the include_folders argument could be replaced by another one (e.g. filter_func) which would be a function that takes a path as an argument: filter_func=lambda x: True (this doesn't strip out anything) and inside _get_dir_content something like: if not filter_func(entry_with_path): continue (if the function fails for one entry, it will be skipped), but the more complex the code becomes, the longer it will take to execute
  • Nota bene! Since recursion is used, I must mention that I did some tests on my laptop (Win 10 x64), totally unrelated to this problem, and when the recursion level was reaching values somewhere in the (990 .. 1000) range (recursionlimit - 1000 (default)), I got StackOverflow :). If the directory tree exceeds that limit (I am not an FS expert, so I don't know if that is even possible), that could be a problem.
    I must also mention that I didn't try to increase recursionlimit because I have no experience in the area (how much can I increase it before having to also increase the stack at OS level), but in theory there will always be the possibility for failure, if the dir depth is larger than the highest possible recursionlimit (on that machine)

  • The code samples are for demonstrative purposes only. That means that I didn't take into account error handling (I don't think there's any try / except / else / finally block), so the code is not robust (the reason is: to keep it as simple and short as possible). For production, error handling should be added as well

Other approaches:

  1. Use Python only as a wrapper

    • Everything is done using another technology
    • That technology is invoked from Python
    • The most famous flavor that I know is what I call the system administrator approach:

      • Use Python (or any programming language for that matter) in order to execute shell commands (and parse their outputs)
      • Some consider this a neat hack
      • I consider it more like a lame workaround (gainarie), as the action per se is performed from shell (cmd in this case), and thus doesn't have anything to do with Python.
      • Filtering (grep / findstr) or output formatting could be done on both sides, but I'm not going to insist on it. Also, I deliberately used os.system instead of subprocess.Popen.
      (py35x64_test) E:\Work\Dev\StackOverflow\q003207219>"e:\Work\Dev\VEnvs\py35x64_test\Scripts\python.exe" -c "import os;os.system(\"dir /b root_dir\")"

    In general this approach is to be avoided, since if some command output format slightly differs between OS versions/flavors, the parsing code should be adapted as well; not to mention differences between locales).

  • You had posted it, but I had cleaned it up once I had read it :-) – Martijn Pieters 2 days ago

If you are looking for a Python implementation of find, this is a recipe I use rather frequently:

from findtools.find_files import (find_files, Match)

# Recursively find all *.sh files in **/usr/bin**
sh_files_pattern = Match(filetype='f', name='*.sh')
found_files = find_files(path='/usr/bin', match=sh_files_pattern)

for found_file in found_files:
    print found_file

So I made a PyPI package out of it and there is also a GitHub repository. I hope that someone finds it potentially useful for this code.

Returning a list of absolute filepaths, does not recurse into subdirectories

L = [os.path.join(os.getcwd(),f) for f in os.listdir('.') if os.path.isfile(os.path.join(os.getcwd(),f))]
  • 1
    maybe bit longer but v clear what it is doing – javadba Jun 8 '15 at 0:28
  • 2
    Note: os.path.abspath(f) would be a somewhat cheaper substitute for os.path.join(os.getcwd(),f). – ShadowRanger May 6 '17 at 0:14
  • I'd be more efficient still if you started with cwd = os.path.abspath('.'), then used cwd instead of '.' and os.getcwd() throughout to avoid loads of redundant system calls. – Martijn Pieters Dec 5 at 10:46
import os
import os.path

def get_files(target_dir):
    item_list = os.listdir(target_dir)

    file_list = list()
    for item in item_list:
        item_dir = os.path.join(target_dir,item)
        if os.path.isdir(item_dir):
            file_list += get_files(item_dir)
    return file_list

Here I use a recursive structure.

I am assuming that all your files are of *.txt format, and are stored inside a directory with path data/.

One can use glob module of python to list all files of the directory, and add them to a list named fnames, in the following manner:

import glob

fnames = glob.glob("data/*.txt")  #fnames: list data type
# -** coding: utf-8 -*-
import os
import traceback

print '\n\n'

def start():
    address = "/home/ubuntu/Desktop"
        Folders = []
        Id = 1
        for item in os.listdir(address):
            endaddress = address + "/" + item
            Folders.append({'Id': Id, 'TopId': 0, 'Name': item, 'Address': endaddress })
            Id += 1         

            state = 0
            for item2 in os.listdir(endaddress):
                state = 1
            if state == 1: 
                Id = FolderToList(endaddress, Id, Id - 1, Folders)
        return Folders
        print "___________________________ ERROR ___________________________\n" + traceback.format_exc()

def FolderToList(address, Id, TopId, Folders):
    for item in os.listdir(address):
        endaddress = address + "/" + item
        Folders.append({'Id': Id, 'TopId': TopId, 'Name': item, 'Address': endaddress })
        Id += 1

        state = 0
        for item in os.listdir(endaddress):
            state = 1
        if state == 1: 
            Id = FolderToList(endaddress, Id, Id - 1, Folders)
    return Id

print start()
  • This is too specific for an isolated usecase and not generally useful, especially since there is no explanation whatsoever what the code is doing. The blanket except handling is also a bad example of how to handle exceptions in general. – Martijn Pieters Dec 5 at 10:44

Using generators

import os
def get_files(search_path):
     for (dirpath, _, filenames) in os.walk(search_path):
         for filename in filenames:
             yield os.path.join(dirpath, filename)
list_files = get_files('.')
for filename in list_files:
import dircache
list = dircache.listdir(pathname)
i = 0
check = len(list[0])
temp = []
count = len(list)
while count != 0:
  if len(list[i]) != check:
     check = len(list[i])
    i = i + 1
    count = count - 1

print temp
  • 16
    dirchache is "Deprecated since version 2.6: The dircache module has been removed in Python 3.0." – Daniel Reis Aug 17 '13 at 13:58

Use this function if you want to use a different file type or get the full directory:

import os

def createList(foldername, fulldir = True, suffix=".jpg"):
    file_list_tmp = os.listdir(foldername)
    #print len(file_list_tmp)
    file_list = []
    if fulldir:
        for item in file_list_tmp:
            if item.endswith(suffix):
                file_list.append(os.path.join(foldername, item))
        for item in file_list_tmp:
            if item.endswith(suffix):
    return file_list
  • You can decide to use os.path.join() inside the loop rather than double up your looping and filtering code. This answer doesn't really add anything over existing answers other than the fulldir flag, so you'd really want to do a better job of the implementation. I'd use def files_list(p, fulldir=True, suffix=None): (indent), names = os.listdir(p), if suffix is not None: names = (f.endswith(suffix) for f in names), return [os.path.join(p, f) if fullname else f for f in names]` to at least keep it compact and efficient. – Martijn Pieters Dec 5 at 10:59
  • Could you point out which part is a double loop? Thanks. – neouyghur Dec 6 at 2:39
  • You have two for ... if ... append constructs in your function, only different in what is appended each time. That’s a lot of needless code duplication. – Martijn Pieters Dec 6 at 3:18

Another very readable variant for Python 3.4+ is using pathlib.Path.glob:

from pathlib import Path
folder = '/foo'
[f for f in Path(folder).glob('*') if f.is_file()]

It is simple to make more specific, e.g. only look for Python source files which are not symbolic links, also in all subdirectories:

[f for f in Path(folder).glob('**/*.py') if not f.is_symlink()]

Here's my general-purpose function for this. It returns a list of file paths rather than filenames since I found that to be more useful. It has a few optional arguments that make it versatile. For instance, I often use it with arguments like pattern='*.txt' or subfolders=True.

import os
import fnmatch

def list_paths(folder='.', pattern='*', case_sensitive=False, subfolders=False):
    """Return a list of the file paths matching the pattern in the specified 
    folder, optionally including files inside subfolders.
    match = fnmatch.fnmatchcase if case_sensitive else fnmatch.fnmatch
    walked = os.walk(folder) if subfolders else [next(os.walk(folder))]
    return [os.path.join(root, f)
            for root, dirnames, filenames in walked
            for f in filenames if match(f, pattern)]

For python2: pip install rglob

import rglob
file_list=rglob.rglob("/home/base/dir/", "*")
print file_list

I will provide a sample one liner where sourcepath and file type can be provided as input. The code returns a list of filenames with csv extension. Use . in case all files needs to be returned. This will also recursively scans the subdirectories.

[y for x in os.walk(sourcePath) for y in glob(os.path.join(x[0], '*.csv'))]

Modify file extensions and source path as needed.

  • If you are going to use glob, then just use glob('**/*.csv', recursive=True). No need to combine this with os.walk() to recurse (recursive and ** are supported since Python 3.5). – Martijn Pieters Dec 5 at 11:09

protected by matt Dec 18 '14 at 2:54

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