I feel that assigning files, and folders and doing the += [item] part is a bit hackish. Any suggestions? I'm using Python 3.2

from os import *
from os.path import *

def dir_contents(path):
    contents = listdir(path)
    files = []
    folders = []
    for i, item in enumerate(contents):
        if isfile(contents[i]):
            files += [item]
        elif isdir(contents[i]):
            folders += [item]
    return files, folders
  • 31
    Avoid from x import *. That's one piece of advice for Pythonic style. Commented Jul 10, 2011 at 5:47
  • 1
    This way of adding items to a list is hackish too. Add a single item with files.append(item) or multiple items with files.extend([item1, item2, ...]) Commented Apr 26, 2021 at 18:45
  • See stackoverflow.com/a/75861500/6395822
    – winderland
    Commented Jan 10 at 17:08

17 Answers 17


os.walk and os.scandir are great options, however, I've been using pathlib more and more, and with pathlib you can use the .glob() or .rglob() (recursive glob) methods:

root_directory = Path(".")
for path_object in root_directory.rglob('*'):
    if path_object.is_file():
        print(f"hi, I'm a file: {path_object}")
    elif path_object.is_dir():
        print(f"hi, I'm a dir: {path_object}")

  • 6
    However, os.walk separates the files and the dirs for you already. Also, just remembered: with os.walk, if I set topdown True (default), I can manipulate the subdirs list, and, for example, skip whole subtrees. See the note about ** in large trees in the docs. I wish os.walk could return Path objects. (Stupid 5 minute edit limit) Commented Oct 21, 2020 at 5:37
  • 1
    You can replace glob('**/*') with rglob('*') which looks nicer.
    – Paul
    Commented Aug 28, 2022 at 13:59

Take a look at the os.walk function which returns the path along with the directories and files it contains. That should considerably shorten your solution.

  • 1
    Wow that's perfect, cant believe i missed it. Thanks you.
    – Mike
    Commented Jul 10, 2011 at 5:40
  • 3
    but os.walk isn't limited to one directory level like the OP's code is.
    – Dan D.
    Commented Jul 10, 2011 at 5:47

For anyone looking for a solution using pathlib (python >= 3.4)

from pathlib import Path

def walk(path): 
    for p in Path(path).iterdir(): 
        if p.is_dir(): 
            yield from walk(p)
        yield p.resolve()

# recursively traverse all files from current directory
for p in walk(Path('.')): 

# the function returns a generator so if you need a list you need to build one
all_files = list(walk(Path('.'))) 

However, as mentioned above, this does not preserve the top-down ordering given by os.walk

  • 5
    I don't think I'd ever seen that yield from syntax before, or at least I'd forgotten about it. Thanks for illustrating it here! Relevant docs for posterity: docs.python.org/3/whatsnew/3.3.html#pep-380
    – David Marx
    Commented Sep 11, 2021 at 17:24
  • Note that the way this code is implemented means that only files will be listed, not directories.
    – Flimm
    Commented Mar 4, 2022 at 20:06
  • I don't think the continue statement is needed; I get an identical result without it.
    – AllanLRH
    Commented Oct 7, 2022 at 9:14
  • If you exclude the continue statement then it will also yield the directories. Otherwise you only get files. So it depends on what you want Commented Oct 28, 2022 at 7:56

Since Python >= 3.4 the exists the generator method Path.rglob. So, to process all paths under some/starting/path just do something such as

from pathlib import Path

path = Path('some/starting/path') 
for subpath in path.rglob('*'):
    # do something with subpath

To get all subpaths in a list do list(path.rglob('*')). To get just the files with sql extension, do list(path.rglob('*.sql')).

  • I'll be using this everywhere from now on. Pity the Python devs didn't default the first argument to '*' then it could be even shorter :) Also with an empty string passed to rglob you seem to get the directories only if that's what you need.
    – Keeely
    Commented Jun 21, 2022 at 9:11

If you want to recursively iterate through all the files, including all files in the subfolders, I believe this is the best way.

import os

def get_files(input):
    for fd, subfds, fns in os.walk(input):
       for fn in fns:
            yield os.path.join(fd, fn)

## now this will print all full paths

for fn in get_files(fd):
  • 3
    I really like this approach because it separates the file system iteration code from the code to process each file! However, the "yield from" line needs to be omitted — os.walk already walks into subdirectories, so if you do it too, you see subdirectory files 2^n times. Commented May 29, 2017 at 17:06

Another solution how to walk a directory tree using the pathlib module:

from pathlib import Path

for directory in Path('.').glob('**'):
    for item in directory.iterdir():

The pattern ** matches current directory and all subdirectories, recursively, and the method iterdir then iterates over each directory's contents. Useful when you need more control when traversing the directory tree.

def dir_contents(path):
    files,folders = [],[]
    for p in listdir(path):
        if isfile(p): files.append(p)
        else: folders.append(p)
    return files, folders

Indeed using

items += [item]

is bad for many reasons...

  1. The append method has been made exactly for that (appending one element to the end of a list)

  2. You are creating a temporary list of one element just to throw it away. While raw speed should not your first concern when using Python (otherwise you're using the wrong language) still wasting speed for no reason doesn't seem the right thing.

  3. You are using a little asymmetry of the Python language... for list objects writing a += b is not the same as writing a = a + b because the former modifies the object in place, while the second instead allocates a new list and this can have a different semantic if the object a is also reachable using other ways. In your specific code this doesn't seem the case but it could become a problem later when someone else (or yourself in a few years, that is the same) will have to modify the code. Python even has a method extend with a less subtle syntax that is specifically made to handle the case in which you want to modify in place a list object by adding at the end the elements of another list.

Also as other have noted seems that your code is trying to do what os.walk already does...


Since Python 3.4 there is new module pathlib. So to get all dirs and files one can do:

from pathlib import Path

dirs = [str(item) for item in Path(path).iterdir() if item.is_dir()]
files = [str(item) for item in Path(path).iterdir() if item.is_file()]
  • 14
    iterdir() does not walk a tree recursively.
    – Brian
    Commented Jul 15, 2019 at 2:59
  • 4
    But... pathlib does support recursive globbing.
    – kojiro
    Commented Apr 7, 2020 at 21:14
  • 1
    The method iterdir() does not guarantee the os.walk() top-down ordering. I would be extremely reticent to attempt to reimplement that tried-and-tested method. (NOTE: Some methods, like os.rmdir() can only delete an empty directory, so order can be very important.)
    – ingyhere
    Commented Apr 29, 2020 at 2:49

Instead of the built-in os.walk and os.path.walk, I use something derived from this piece of code I found suggested elsewhere which I had originally linked to but have replaced with inlined source:

import os
import stat

class DirectoryStatWalker:
    # a forward iterator that traverses a directory tree, and
    # returns the filename and additional file information

    def __init__(self, directory):
        self.stack = [directory]
        self.files = []
        self.index = 0

    def __getitem__(self, index):
        while 1:
                file = self.files[self.index]
                self.index = self.index + 1
            except IndexError:
                # pop next directory from stack
                self.directory = self.stack.pop()
                self.files = os.listdir(self.directory)
                self.index = 0
                # got a filename
                fullname = os.path.join(self.directory, file)
                st = os.stat(fullname)
                mode = st[stat.ST_MODE]
                if stat.S_ISDIR(mode) and not stat.S_ISLNK(mode):
                return fullname, st

if __name__ == '__main__':
    for file, st in DirectoryStatWalker("/usr/include"):
        print file, st[stat.ST_SIZE]

It walks the directories recursively and is quite efficient and easy to read.

  • +1 @mikebabcock thanks - this works for me out-of-the-box in Python 2.x (even though the OP is using 3.x) I needed a 2.x solution. Commented Feb 13, 2012 at 15:32
  • Unfortunately that project is no longer available, 404. Could someone repaste it here?
    – LarsH
    Commented Jan 29, 2013 at 14:48
  • 1
    I haven't checked if its identical yet, but cf pymoex.googlecode.com/svn/trunk/os_path/directoryStatWalker.py @LarsH Commented Feb 4, 2013 at 20:24

Here is a version that uses os.scandir and returns a tree structure. Using os.scandir will return os.DirEntry objects, which hold information about the path objects in memory, allowing querying of the information about the items without filesystem calls.

import os

def treedir(path):
    files = []
    folders = {}
    for entry in os.scandir(path):
        if entry.is_file():
        elif entry.is_dir():
            folders[entry.name] = treedir(entry)
    result = {}
    if files:
        result['files'] = files
    if folders:
        result['folders'] = folders
    return result

Try using the append method.


While googling for the same info, I found this question.

I am posting here the smallest, clearest code which I found at http://www.pythoncentral.io/how-to-traverse-a-directory-tree-in-python-guide-to-os-walk/ (rather than just posting the URL, in case of link rot).

The page has some useful info and also points to a few other relevant pages.

# Import the os module, for the os.walk function
import os

# Set the directory you want to start from
rootDir = '.'
for dirName, subdirList, fileList in os.walk(rootDir):
    print('Found directory: %s' % dirName)
    for fname in fileList:
        print('\t%s' % fname)

I've not tested this extensively yet, but I believe this will expand the os.walk generator, join dirnames to all the file paths, and flatten the resulting list; To give a straight up list of concrete files in your search path.

import itertools
import os

def find(input_path):
    return itertools.chain(
            list(os.path.join(dirname, fname) for fname in files)
            for dirname, _, files in os.walk(input_path)
import pathlib
import time

def prune_empty_dirs(path: pathlib.Path):
    for current_path in list(path.rglob("*"))[::-1]:
        if current_path.is_dir() and not any(current_path.iterdir()):
            while current_path.exists():
  • As it’s currently written, your answer is unclear. Please edit to add additional details that will help others understand how this addresses the question asked. You can find more information on how to write good answers in the help center.
    – Blue Robin
    Commented Mar 9, 2023 at 4:30

I like the structure of the result of os.walk() but prefer pathlib overall. My lazy solution therefore is simply creating a Path from each item returned by os.walk().

import os
import pathlib

def walk(path='bin'):
    for root, dirs, files in os.walk(path):
        root = pathlib.Path(root)
        dirs = [root / d for d in dirs]
        files = [root / f for f in files]
        yield root, dirs, files

Copy and paste code for those who want to deep walk all nested sub directories:

  • using python's recursion call with os.listdir():
import os

count = 0
def deep_walk(mypath):
    global count
    for file in os.listdir(mypath):
        file_path = os.path.join(mypath, file)
        if os.path.isdir(file_path):
            count += 1

print(f"Total file count: {count}")
  • using python's standard library os.walk():
import os

def walk_dir(mypath):
    count = 0
    for root, dirs, files in os.walk(mypath):
        for file in files:
            file_path = os.path.join(root, file)
            count += 1
    print(f"Total file count: {count}")

mypath = "/tmp"

The difference is that with os.walk() you won't need to walk every directories of each sub directories mannually, the library will do it for you, no matter how many nested directories you have.

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