183

I know that we can use os.walk() to list all sub-directories or all files in a directory. However, I would like to list the full directory tree content:

- Subdirectory 1:
   - file11
   - file12
   - Sub-sub-directory 11:
         - file111
         - file112
- Subdirectory 2:
    - file21
    - sub-sub-directory 21
    - sub-sub-directory 22    
        - sub-sub-sub-directory 221
            - file 2211

How to best achieve this in Python?

0

18 Answers 18

231

Here's a function to do that with formatting:

import os

def list_files(startpath):
    for root, dirs, files in os.walk(startpath):
        level = root.replace(startpath, '').count(os.sep)
        indent = ' ' * 4 * (level)
        print('{}{}/'.format(indent, os.path.basename(root)))
        subindent = ' ' * 4 * (level + 1)
        for f in files:
            print('{}{}'.format(subindent, f))
4
  • 1
    This worked very well, thank you. Though most would know, still for the benefit of newcomers into python - please note that you would need to call the function at the end (assuming windows), so you might add a new line at the end with the content list_files ("D:\\")
    – Rahul
    Mar 16, 2017 at 16:06
  • 1
    Worked well on python3. But on python2 ValueError: zero length field name in format gets thrown. Nov 21, 2017 at 10:39
  • 6
    If startpath is repeated within root, won't it replace each occurrence? Changing to root.replace(startpath, '', 1) should fix that
    – drone.ah
    Jun 21, 2019 at 19:11
  • It also has an issue if you use '/' as startpath (i.e. the root dir on a *nix system)... maybe better to just count the number of separators in root and subtract one to get the level: level = root.count(os.sep) - 1 May 9, 2022 at 14:38
85

List directory tree structure in Python?

We usually prefer to just use GNU tree, but we don't always have tree on every system, and sometimes Python 3 is available. A good answer here could be easily copy-pasted and not make GNU tree a requirement.

tree's output looks like this:

$ tree
.
├── package
│   ├── __init__.py
│   ├── __main__.py
│   ├── subpackage
│   │   ├── __init__.py
│   │   ├── __main__.py
│   │   └── module.py
│   └── subpackage2
│       ├── __init__.py
│       ├── __main__.py
│       └── module2.py
└── package2
    └── __init__.py

4 directories, 9 files

I created the above directory structure in my home directory under a directory I call pyscratch.

I also see other answers here that approach that sort of output, but I think we can do better, with simpler, more modern code and lazily evaluating approaches.

Tree in Python

To begin with, let's use an example that

  • uses the Python 3 Path object
  • uses the yield and yield from expressions (that create a generator function)
  • uses recursion for elegant simplicity
  • uses comments and some type annotations for extra clarity
from pathlib import Path

# prefix components:
space =  '    '
branch = '│   '
# pointers:
tee =    '├── '
last =   '└── '


def tree(dir_path: Path, prefix: str=''):
    """A recursive generator, given a directory Path object
    will yield a visual tree structure line by line
    with each line prefixed by the same characters
    """    
    contents = list(dir_path.iterdir())
    # contents each get pointers that are ├── with a final └── :
    pointers = [tee] * (len(contents) - 1) + [last]
    for pointer, path in zip(pointers, contents):
        yield prefix + pointer + path.name
        if path.is_dir(): # extend the prefix and recurse:
            extension = branch if pointer == tee else space 
            # i.e. space because last, └── , above so no more |
            yield from tree(path, prefix=prefix+extension)

and now:

for line in tree(Path.home() / 'pyscratch'):
    print(line)

prints:

├── package
│   ├── __init__.py
│   ├── __main__.py
│   ├── subpackage
│   │   ├── __init__.py
│   │   ├── __main__.py
│   │   └── module.py
│   └── subpackage2
│       ├── __init__.py
│       ├── __main__.py
│       └── module2.py
└── package2
    └── __init__.py

We do need to materialize each directory into a list because we need to know how long it is, but afterwards we throw the list away. For deep and broad recursion this should be lazy enough.

The above code, with the comments, should be sufficient to fully understand what we're doing here, but feel free to step through it with a debugger to better grock it if you need to.

More features

Now GNU tree gives us a couple of useful features that I'd like to have with this function:

  • prints the subject directory name first (does so automatically, ours does not)
  • prints the count of n directories, m files
  • option to limit recursion, -L level
  • option to limit to just directories, -d

Also, when there is a huge tree, it is useful to limit the iteration (e.g. with islice) to avoid locking up your interpreter with text, as at some point the output becomes too verbose to be useful. We can make this arbitrarily high by default - say 1000.

So let's remove the previous comments and fill out this functionality:

from pathlib import Path
from itertools import islice

space =  '    '
branch = '│   '
tee =    '├── '
last =   '└── '
def tree(dir_path: Path, level: int=-1, limit_to_directories: bool=False,
         length_limit: int=1000):
    """Given a directory Path object print a visual tree structure"""
    dir_path = Path(dir_path) # accept string coerceable to Path
    files = 0
    directories = 0
    def inner(dir_path: Path, prefix: str='', level=-1):
        nonlocal files, directories
        if not level: 
            return # 0, stop iterating
        if limit_to_directories:
            contents = [d for d in dir_path.iterdir() if d.is_dir()]
        else: 
            contents = list(dir_path.iterdir())
        pointers = [tee] * (len(contents) - 1) + [last]
        for pointer, path in zip(pointers, contents):
            if path.is_dir():
                yield prefix + pointer + path.name
                directories += 1
                extension = branch if pointer == tee else space 
                yield from inner(path, prefix=prefix+extension, level=level-1)
            elif not limit_to_directories:
                yield prefix + pointer + path.name
                files += 1
    print(dir_path.name)
    iterator = inner(dir_path, level=level)
    for line in islice(iterator, length_limit):
        print(line)
    if next(iterator, None):
        print(f'... length_limit, {length_limit}, reached, counted:')
    print(f'\n{directories} directories' + (f', {files} files' if files else ''))

And now we can get the same sort of output as tree:

tree(Path.home() / 'pyscratch')

prints:

pyscratch
├── package
│   ├── __init__.py
│   ├── __main__.py
│   ├── subpackage
│   │   ├── __init__.py
│   │   ├── __main__.py
│   │   └── module.py
│   └── subpackage2
│       ├── __init__.py
│       ├── __main__.py
│       └── module2.py
└── package2
    └── __init__.py

4 directories, 9 files

And we can restrict to levels:

tree(Path.home() / 'pyscratch', level=2)

prints:

pyscratch
├── package
│   ├── __init__.py
│   ├── __main__.py
│   ├── subpackage
│   └── subpackage2
└── package2
    └── __init__.py

4 directories, 3 files

And we can limit the output to directories:

tree(Path.home() / 'pyscratch', level=2, limit_to_directories=True)

prints:

pyscratch
├── package
│   ├── subpackage
│   └── subpackage2
└── package2

4 directories

Retrospective

In retrospect, we could have used path.glob for matching. We could also perhaps use path.rglob for recursive globbing, but that would require a rewrite. We could also use itertools.tee instead of materializing a list of directory contents, but that could have negative tradeoffs and would probably make the code even more complex.

Comments are welcome!

8
  • To also print the lines-of-code, after elif not limit_to_directories: add the following: info = prefix + pointer + path.name; try: with path.open('r') as f: n_lines = len(f.readlines()); loc = f' LOC: {n_lines}'; info += loc; except UnicodeDecodeError: pass; yield info See this link for proper white-space. Jan 7, 2020 at 14:28
  • This was exactly what I needed in my code, and taught me some new Python tricks! Only thing I'd note is that contents needs to be filtered if limit_to_directories is True. Otherwise if a folder doesn't have a directory for the last file, the tree won't be drawn correctly. if limit_to_directories: contents = [path for path in contents if path.is_dir()]
    – hennign
    Mar 28, 2020 at 1:35
  • @hennign thanks, answer updated, appreciate the feedback! Mar 29, 2020 at 19:05
  • Python is all predicated on list(dir_path.iterdir()) returning a properly ordered top-down tree of directory structure. I see no such guarantee in the API for iterdir(). Please provide a reference on how iterdir() orders or is guaranteed to provide the desired ordering.
    – ingyhere
    Apr 28, 2020 at 18:45
  • @ingyhere I'm not sure where you got that idea - it seems to use os.listdir() by default - which makes no guarantee of the order : "The list is in arbitrary order, and does not include the special entries '.' and '..' even if they are present in the directory." Apr 28, 2020 at 23:41
84

Similar to answers above, but for python3, arguably readable and arguably extensible:

from pathlib import Path

class DisplayablePath(object):
    display_filename_prefix_middle = '├──'
    display_filename_prefix_last = '└──'
    display_parent_prefix_middle = '    '
    display_parent_prefix_last = '│   '

    def __init__(self, path, parent_path, is_last):
        self.path = Path(str(path))
        self.parent = parent_path
        self.is_last = is_last
        if self.parent:
            self.depth = self.parent.depth + 1
        else:
            self.depth = 0

    @property
    def displayname(self):
        if self.path.is_dir():
            return self.path.name + '/'
        return self.path.name

    @classmethod
    def make_tree(cls, root, parent=None, is_last=False, criteria=None):
        root = Path(str(root))
        criteria = criteria or cls._default_criteria

        displayable_root = cls(root, parent, is_last)
        yield displayable_root

        children = sorted(list(path
                               for path in root.iterdir()
                               if criteria(path)),
                          key=lambda s: str(s).lower())
        count = 1
        for path in children:
            is_last = count == len(children)
            if path.is_dir():
                yield from cls.make_tree(path,
                                         parent=displayable_root,
                                         is_last=is_last,
                                         criteria=criteria)
            else:
                yield cls(path, displayable_root, is_last)
            count += 1

    @classmethod
    def _default_criteria(cls, path):
        return True

    @property
    def displayname(self):
        if self.path.is_dir():
            return self.path.name + '/'
        return self.path.name

    def displayable(self):
        if self.parent is None:
            return self.displayname

        _filename_prefix = (self.display_filename_prefix_last
                            if self.is_last
                            else self.display_filename_prefix_middle)

        parts = ['{!s} {!s}'.format(_filename_prefix,
                                    self.displayname)]

        parent = self.parent
        while parent and parent.parent is not None:
            parts.append(self.display_parent_prefix_middle
                         if parent.is_last
                         else self.display_parent_prefix_last)
            parent = parent.parent

        return ''.join(reversed(parts))

Example usage:

paths = DisplayablePath.make_tree(
    Path('doc'),
    criteria=is_not_hidden
)
for path in paths:
    print(path.displayable())

# With a criteria (skip hidden files)
def is_not_hidden(path):
    return not path.name.startswith(".")

paths = DisplayablePath.make_tree(Path('doc'), criteria=is_not_hidden)
for path in paths:
    print(path.displayable())

Example output:

doc/
├── _static/
│   ├── embedded/
│   │   ├── deep_file
│   │   └── very/
│   │       └── deep/
│   │           └── folder/
│   │               └── very_deep_file
│   └── less_deep_file
├── about.rst
├── conf.py
└── index.rst

Notes

  • This uses recursion. It will raise a RecursionError on really deep folder trees
  • The tree is lazily evaluated. It should behave well on really wide folder trees. Immediate children of a given folder are not lazily evaluated, though.

Edit:

  • Added bonus! criteria callback for filtering paths.
7
  • Nice tool, do you have a quick example on how to use criteria in order to exclude folder names? Nov 2, 2019 at 22:00
  • This is exactly what I was looking for. Thank you so much!
    – dheinz
    Jan 21, 2020 at 12:10
  • 2
    DisplayablePath.make_tree(Path('doc'), criteria=lambda path: True if path.name not in ('.git', '__pycache__') else False)) Is an example of filtering out unwanted paths. Oct 22, 2020 at 22:00
  • @Matt-Mac-Muffin I have added a criteria example
    – abstrus
    Apr 10, 2022 at 3:13
  • I'm missing something here. What is the is_not_hidden?
    – braintho
    Aug 5, 2022 at 18:23
38

I created a package called seedir for doing this and other things with folder tree diagrams:

>>> import seedir as sd
>>> sd.seedir('/path/to/package', style='emoji')
📁 package/
├─📄 __init__.py
├─📁 subpackage1/
│ ├─📄 __init__.py
│ ├─📄 moduleX.py
│ └─📄 moduleY.py
├─📁 subpackage2/
│ ├─📄 __init__.py
│ └─📄 moduleZ.py
└─📄 moduleA.py

Something similar to the style OP used can be done with:

>>> sd.seedir('/path/to/package', style='spaces', indent=4, anystart='- ')
- package/
    - __init__.py
    - subpackage1/
        - __init__.py
        - moduleX.py
        - moduleY.py
    - subpackage2/
        - __init__.py
        - moduleZ.py
    - moduleA.py


There is also a command-line interface. For example:

seedir -y emoji

For all the options, see

seedir --help

You can also do python -m seedir.

4
  • Is it possible to export to .png image?
    – israteneda
    Dec 22, 2020 at 16:19
  • 1
    @israteneda currently no, but could be added!
    – Tom
    Dec 22, 2020 at 16:27
  • 1
    @Justaus3r yes!
    – Tom
    Apr 30, 2021 at 16:03
  • 1
    This is the only reasonable answer. For the others, it's preferable a nice mature package instead of an uncooked recipe in the answers, also, the question is python, not gnu, not bash, no other languages. So, thanks for this one, seedir Sep 9, 2022 at 12:25
31

A solution without your indentation:

for path, dirs, files in os.walk(given_path):
  print path
  for f in files:
    print f

os.walk already does the top-down, depth-first walk you are looking for.

Ignoring the dirs list prevents the overlapping you mention.

2
  • 2
    python says: NameError: name 'path' is not defined Jan 13, 2018 at 5:36
  • 1
    @FrancescoMantovani "path" is the variable containing the directory you want to print, i.e. r"C:\Users\username\Documents\path"
    – zwelz
    Aug 30, 2018 at 18:33
19

I came here looking for the same thing and used dhobbs answer for me. As a way of thanking the community, I added some arguments to write to a file, as akshay asked, and made showing files optional so it is not so bit an output. Also made the indentation an optional argument so you can change it, as some like it to be 2 and others prefer 4.

Used different loops so the one not showing files doesn't check if it has to on each iteration.

Hope it helps someone else as dhobbs answer helped me. Thanks a lot.

def showFolderTree(path,show_files=False,indentation=2,file_output=False):
    """
    Shows the content of a folder in a tree structure.
    path -(string)- path of the root folder we want to show.
    show_files -(boolean)-  Whether or not we want to see files listed.
                            Defaults to False.
    indentation -(int)- Indentation we want to use, defaults to 2.   
    file_output -(string)-  Path (including the name) of the file where we want
                            to save the tree.
    """

       
    tree = []

    if not show_files:
        for root, dirs, files in os.walk(path):
            level = root.replace(path, '').count(os.sep)
            indent = ' '*indentation*(level)
            tree.append('{}{}/'.format(indent,os.path.basename(root)))
            
    if show_files:
        for root, dirs, files in os.walk(path):
            level = root.replace(path, '').count(os.sep)
            indent = ' '*indentation*(level)
            tree.append('{}{}/'.format(indent,os.path.basename(root)))    
            for f in files:
                subindent=' ' * indentation * (level+1)
                tree.append('{}{}'.format(subindent,f))
            
    if file_output:
        output_file = open(file_output,'w')
        for line in tree:
            output_file.write(line)
            output_file.write('\n')
    else:
        # Default behaviour: print on screen.
        for line in tree:
            print line
2
  • I feel this answer doesn't contribute to the already accepted answer. The only thing you are providing is additional fluff code to turn off features or not in the response. Sep 17, 2015 at 20:18
  • 6
    Your feeling is right, @jason-heine. The accepted answer is good enough, but some people asked how to do this fluff stuff and I wanted to give something to them. Downvote it or report my answer if you don't want to see this in SO, I thought it wouldn't hurt, but I might be wrong. Nov 18, 2015 at 9:39
10

Based on this fantastic post

http://code.activestate.com/recipes/217212-treepy-graphically-displays-the-directory-structur/

Here es a refinement to behave exactly like

http://linux.die.net/man/1/tree

#!/usr/bin/env python2
# -*- coding: utf-8 -*-

# tree.py
#
# Written by Doug Dahms
#
# Prints the tree structure for the path specified on the command line

from os import listdir, sep
from os.path import abspath, basename, isdir
from sys import argv

def tree(dir, padding, print_files=False, isLast=False, isFirst=False):
    if isFirst:
        print padding.decode('utf8')[:-1].encode('utf8') + dir
    else:
        if isLast:
            print padding.decode('utf8')[:-1].encode('utf8') + '└── ' + basename(abspath(dir))
        else:
            print padding.decode('utf8')[:-1].encode('utf8') + '├── ' + basename(abspath(dir))
    files = []
    if print_files:
        files = listdir(dir)
    else:
        files = [x for x in listdir(dir) if isdir(dir + sep + x)]
    if not isFirst:
        padding = padding + '   '
    files = sorted(files, key=lambda s: s.lower())
    count = 0
    last = len(files) - 1
    for i, file in enumerate(files):
        count += 1
        path = dir + sep + file
        isLast = i == last
        if isdir(path):
            if count == len(files):
                if isFirst:
                    tree(path, padding, print_files, isLast, False)
                else:
                    tree(path, padding + ' ', print_files, isLast, False)
            else:
                tree(path, padding + '│', print_files, isLast, False)
        else:
            if isLast:
                print padding + '└── ' + file
            else:
                print padding + '├── ' + file

def usage():
    return '''Usage: %s [-f] 
Print tree structure of path specified.
Options:
-f      Print files as well as directories
PATH    Path to process''' % basename(argv[0])

def main():
    if len(argv) == 1:
        print usage()
    elif len(argv) == 2:
        # print just directories
        path = argv[1]
        if isdir(path):
            tree(path, '', False, False, True)
        else:
            print 'ERROR: \'' + path + '\' is not a directory'
    elif len(argv) == 3 and argv[1] == '-f':
        # print directories and files
        path = argv[2]
        if isdir(path):
            tree(path, '', True, False, True)
        else:
            print 'ERROR: \'' + path + '\' is not a directory'
    else:
        print usage()

if __name__ == '__main__':
    main()


9
import os

def fs_tree_to_dict(path_):
    file_token = ''
    for root, dirs, files in os.walk(path_):
        tree = {d: fs_tree_to_dict(os.path.join(root, d)) for d in dirs}
        tree.update({f: file_token for f in files})
        return tree  # note we discontinue iteration trough os.walk

If anybody is interested - that recursive function returns nested structure of dictionaries. Keys are file system names (of directories and files), values are either:

  • sub dictionaries for directories
  • strings for files (see file_token)

The strings designating files are empty in this example. They can also be e.g. given file contents or its owner info or privileges or whatever object different than a dict. Unless it's a dictionary it can be easily distinguished from a "directory type" in further operations.

Having such a tree in a filesystem:

# bash:
$ tree /tmp/ex
/tmp/ex
├── d_a
│   ├── d_a_a
│   ├── d_a_b
│   │   └── f1.txt
│   ├── d_a_c
│   └── fa.txt
├── d_b
│   ├── fb1.txt
│   └── fb2.txt
└── d_c

The result will be:

# python 2 or 3:
>>> fs_tree_to_dict("/tmp/ex")
{
    'd_a': {
        'd_a_a': {},
        'd_a_b': {
            'f1.txt': ''
        },
        'd_a_c': {},
        'fa.txt': ''
    },
    'd_b': {
        'fb1.txt': '',
        'fb2.txt': ''
    },
    'd_c': {}
}

If you like that, I've already created a package (python 2 & 3) with this stuff (and a nice pyfakefs helper): https://pypi.org/project/fsforge/

2
  • could you please elaborate on how file_token could be used to read file properties, such as, for example filesize , thanks! Jan 25, 2022 at 19:13
  • Sure. Change the line tree.update({f: file_token for f in files}) into tree.update({f: os.path.getsize(os.path.join(root, f)) for f in files}). The line defining file_token can be removed then. Jan 26, 2022 at 20:20
5

On top of dhobbs answer above (https://stackoverflow.com/a/9728478/624597), here is an extra functionality of storing results to a file (I personally use it to copy and paste to FreeMind to have a nice overview of the structure, therefore I used tabs instead of spaces for indentation):

import os

def list_files(startpath):

    with open("folder_structure.txt", "w") as f_output:
        for root, dirs, files in os.walk(startpath):
            level = root.replace(startpath, '').count(os.sep)
            indent = '\t' * 1 * (level)
            output_string = '{}{}/'.format(indent, os.path.basename(root))
            print(output_string)
            f_output.write(output_string + '\n')
            subindent = '\t' * 1 * (level + 1)
            for f in files:
                output_string = '{}{}'.format(subindent, f)
                print(output_string)
                f_output.write(output_string + '\n')

list_files(".")
0
4

This solution will only work if you have tree installed on your system. However I'm leaving this solution here just in case it helps someone else out.

You can tell tree to output the tree structure as XML (tree -X) or JSON (tree -J). JSON of course can be parsed directly with python and XML can easily be read with lxml.

With the following directory structure as an example:

[sri@localhost Projects]$ tree --charset=ascii bands
bands
|-- DreamTroll
|   |-- MattBaldwinson
|   |-- members.txt
|   |-- PaulCarter
|   |-- SimonBlakelock
|   `-- Rob Stringer
|-- KingsX
|   |-- DougPinnick
|   |-- JerryGaskill
|   |-- members.txt
|   `-- TyTabor
|-- Megadeth
|   |-- DaveMustaine
|   |-- DavidEllefson
|   |-- DirkVerbeuren
|   |-- KikoLoureiro
|   `-- members.txt
|-- Nightwish
|   |-- EmppuVuorinen
|   |-- FloorJansen
|   |-- JukkaNevalainen
|   |-- MarcoHietala
|   |-- members.txt
|   |-- TroyDonockley
|   `-- TuomasHolopainen
`-- Rush
    |-- AlexLifeson
    |-- GeddyLee
    `-- NeilPeart

5 directories, 25 files

XML

<?xml version="1.0" encoding="UTF-8"?>
<tree>
  <directory name="bands">
    <directory name="DreamTroll">
      <file name="MattBaldwinson"></file>
      <file name="members.txt"></file>
      <file name="PaulCarter"></file>
      <file name="RobStringer"></file>
      <file name="SimonBlakelock"></file>
    </directory>
    <directory name="KingsX">
      <file name="DougPinnick"></file>
      <file name="JerryGaskill"></file>
      <file name="members.txt"></file>
      <file name="TyTabor"></file>
    </directory>
    <directory name="Megadeth">
      <file name="DaveMustaine"></file>
      <file name="DavidEllefson"></file>
      <file name="DirkVerbeuren"></file>
      <file name="KikoLoureiro"></file>
      <file name="members.txt"></file>
    </directory>
    <directory name="Nightwish">
      <file name="EmppuVuorinen"></file>
      <file name="FloorJansen"></file>
      <file name="JukkaNevalainen"></file>
      <file name="MarcoHietala"></file>
      <file name="members.txt"></file>
      <file name="TroyDonockley"></file>
      <file name="TuomasHolopainen"></file>
    </directory>
    <directory name="Rush">
      <file name="AlexLifeson"></file>
      <file name="GeddyLee"></file>
      <file name="NeilPeart"></file>
    </directory>
  </directory>
  <report>
    <directories>5</directories>
    <files>25</files>
  </report>
</tree>

JSON

[sri@localhost Projects]$ tree -J bands
[
  {"type":"directory","name":"bands","contents":[
    {"type":"directory","name":"DreamTroll","contents":[
      {"type":"file","name":"MattBaldwinson"},
      {"type":"file","name":"members.txt"},
      {"type":"file","name":"PaulCarter"},
      {"type":"file","name":"RobStringer"},
      {"type":"file","name":"SimonBlakelock"}
    ]},
    {"type":"directory","name":"KingsX","contents":[
      {"type":"file","name":"DougPinnick"},
      {"type":"file","name":"JerryGaskill"},
      {"type":"file","name":"members.txt"},
      {"type":"file","name":"TyTabor"}
    ]},
    {"type":"directory","name":"Megadeth","contents":[
      {"type":"file","name":"DaveMustaine"},
      {"type":"file","name":"DavidEllefson"},
      {"type":"file","name":"DirkVerbeuren"},
      {"type":"file","name":"KikoLoureiro"},
      {"type":"file","name":"members.txt"}
    ]},
    {"type":"directory","name":"Nightwish","contents":[
      {"type":"file","name":"EmppuVuorinen"},
      {"type":"file","name":"FloorJansen"},
      {"type":"file","name":"JukkaNevalainen"},
      {"type":"file","name":"MarcoHietala"},
      {"type":"file","name":"members.txt"},
      {"type":"file","name":"TroyDonockley"},
      {"type":"file","name":"TuomasHolopainen"}
    ]},
    {"type":"directory","name":"Rush","contents":[
      {"type":"file","name":"AlexLifeson"},
      {"type":"file","name":"GeddyLee"},
      {"type":"file","name":"NeilPeart"}
    ]}
  ]},
  {"type":"report","directories":5,"files":25}
]
2

You can execute 'tree' command of Linux shell.

Installation:

   ~$sudo apt install tree

Using in python

    >>> import os
    >>> os.system('tree <desired path>')

Example:

    >>> os.system('tree ~/Desktop/myproject')

This gives you a cleaner structure and is visually more comprehensive and easy to type.

2
2

Most minimal native solution:

from pathlib import Path

def print_tree(path, prefix=''):
    for item in path.iterdir():
        print(f'{prefix}├── {item.name}')
        if item.is_dir():
            print_tree(item, prefix + '│   ')

Output:

curr_dir = Path(__file__).resolve().parent
print_tree(curr_dir)

├── aaa
│   ├── a.txt
│   ├── a1
│   ├── a2
├── bbb
│   ├── b.txt
├── tree.py

You can modify it to optionally show only directories:

def print_tree(path, prefix='', show_files=False):
    for item in path.iterdir():
        if item.is_dir():
            print(f'{prefix}├── {item.name}/')
            print_tree(item, prefix + '│   ', show_files)
        elif show_files:
            print(f'{prefix}├── {item.name}')
1

Maybe faster than @ellockie ( Maybe )

import os
def file_writer(text):
    with open("folder_structure.txt","a") as f_output:
        f_output.write(text)
def list_files(startpath):


    for root, dirs, files in os.walk(startpath):
        level = root.replace(startpath, '').count(os.sep)
        indent = '\t' * 1 * (level)
        output_string = '{}{}/ \n'.format(indent, os.path.basename(root))
        file_writer(output_string)
        subindent = '\t' * 1 * (level + 1)
        output_string = '%s %s \n' %(subindent,[f for f in files])
        file_writer(''.join(output_string))


list_files("/")

Test results in screenshot below:

enter image description here

0
1

Python2 & Python3: I saw several answers on here that are much more conscience than my own, however, for my applications, I did not have access to the libraries they relied on. This was my solution to the task. Also, for my application, I needed to know the absolute path for each file so I printed it out along with the file name.

#!/usr/bin/env python
# -*- coding: utf_8 -*-
import os

PIPE = "│"
ELBOW = "└──"
TEE = "├──"
PIPE_PREFIX = "│   "
SPACE_PREFIX = "    "


def list_files(startpath):

    for root, dirs, files in os.walk(startpath):
        break
    
    tree = []    
    for i, file in enumerate(files):
        if i == len(files)-1 and len(dirs) == 0:
            joint = ELBOW
        else:
            joint = TEE
        tree.append('{} {} : {}'.format(joint, file, os.path.join(root, file)))
    
    for i, dir in enumerate(dirs):
        if i == len(dirs)-1:
            joint = ELBOW
            space = SPACE_PREFIX
        else:
            joint = TEE
            space = PIPE_PREFIX
        
        tree.append('{} {}/'.format(joint, dir))
        branches = list_files(os.path.join(root,dir))
       for branch in branches:
            tree.append('{}{}'.format(space, branch))

    return tree

if __name__ == '__main__':
    # Obtain top level directory path
    cwd = os.getcwd()
    tree = list_files(cwd)   
    
    string = '../{}/\n'.format(os.path.basename(cwd))
    for t in tree:
        string += '{}\n'.format(t)
    string = string.replace('\n', '\n   ')
    print(string)

The output of the script is:

../TEST_DIR/
├── test.txt : /usr/scripts/TEST_DIR/test.txt
├── a/
│   ├── 1.txt : /usr/scripts/TEST_DIR/a/1.txt
│   ├── 2.py : /usr/scripts/TEST_DIR/a/2.py
│   └── 3.bit : /usr/scripts/TEST_DIR/a/3.bit
├── b/
│   ├── bb/
│   │   ├── 1.txt : /usr/scripts/TEST_DIR/b/bb/1.txt
│   │   ├── 2.py : /usr/scripts/TEST_DIR/b/bb/2.py
│   │   ├── 3.bit : /usr/scripts/TEST_DIR/b/bb/3.bit
│   │   └── bb_copy/
│   │       ├── 1.txt : /usr/scripts/TEST_DIR/b/bb/bb_copy/1.txt
│   │       ├── 2.py : /usr/scripts/TEST_DIR/b/bb/bb_copy/2.py
│   │       ├── 3.bit : /usr/scripts/TEST_DIR/b/bb/bb_copy/3.bit
│   │       └── bb_copy/
│   │           ├── 1.txt : /usr/scripts/TEST_DIR/b/bb/bb_copy/bb_copy/1.txt
│   │           ├── 2.py : /usr/scripts/TEST_DIR/b/bb/bb_copy/bb_copy/2.py
│   │           └── 3.bit : /usr/scripts/TEST_DIR/b/bb/bb_copy/bb_copy/3.bit
│   └── bb_copy/
│       ├── 1.txt : /usr/scripts/TEST_DIR/b/bb_copy/1.txt
│       ├── 2.py : /usr/scripts/TEST_DIR/b/bb_copy/2.py
│       └── 3.bit : /usr/scripts/TEST_DIR/b/bb_copy/3.bit
└── c/

I would appreciate any tips for making this script more streamline, conscience, and robust. I hope this helps.

0

Here you can find code with output like this: https://stackoverflow.com/a/56622847/6671330

V .
|-> V folder1
|   |-> V folder2
|   |   |-> V folder3
|   |   |   |-> file3.txt
|   |   |-> file2.txt
|   |-> V folderX
|   |-> file1.txt
|-> 02-hw1_wdwwfm.py
|-> 06-t1-home1.py
|-> 06-t1-home2.py
|-> hw1.py
0

For those who are still looking for an answer. Here is a recursive approach to get the paths in a dictionary.

import os


def list_files(startpath):
    for root, dirs, files in os.walk(startpath):
        dir_content = []
        for dir in dirs:
            go_inside = os.path.join(startpath, dir)
            dir_content.append(list_files(go_inside))
        files_lst = []
        for f in files:
            files_lst.append(f)
        return {'name': root, 'files': files_lst, 'dirs': dir_content}
0

@dhobbs's answer is great!

but simply change to easy get the level info

def print_list_dir(dir):
    print("=" * 64)
    print("[PRINT LIST DIR] %s" % dir)
    print("=" * 64)
    for root, dirs, files in os.walk(dir):
        level = root.replace(dir, '').count(os.sep)
        indent = '| ' * level
        print('{}{} \\'.format(indent, os.path.basename(root)))
        subindent = '| ' * (level + 1)
        for f in files:
            print('{}{}'.format(subindent, f))
    print("=" * 64)

and the output like

================================================================
[PRINT LIST DIR] ./
================================================================
 \
| os_name.py
| json_loads.py
| linspace_python.py
| list_file.py
| to_gson_format.py
| type_convert_test.py
| in_and_replace_test.py
| online_log.py
| padding_and_clipping.py
| str_tuple.py
| set_test.py
| script_name.py
| word_count.py
| get14.py
| np_test2.py
================================================================

you can get the level by | count!

0

Just another tree() function, with some features I find useful:

  • Set max_files to limit the number of files per directory
  • Set max_level to limit the depth
  • Set sort_by to sort the files and directories, for example sort_by=os.path.getmtime to sort by last-modified date. Default is to sort by name. Note that directories are always shown before files.
  • Set indent to set the number of spaces per indent level, default to 4.
from pathlib import Path

def tree(path, *, indent=4, max_files=None, sort_by=None, level=0, max_level=None):
    path = Path(path)
    if not path.is_dir():
        return
    indent_str = " " * indent * level
    print(f"{indent_str}{path.name}/")
    sub_indent_str = " " * indent * (level + 1)
    dir_content = list(path.iterdir())
    subdirs = [filepath for filepath in dir_content if filepath.is_dir()]
    files = [filepath for filepath in dir_content if not filepath in subdirs]
    if max_level is not None and level < max_level:
        for subdir in sorted(subdirs, key=sort_by):
            tree(subdir, indent=indent, max_files=max_files, sort_by=sort_by,
                 level=level + 1, max_level=max_level)
    for idx, filepath in enumerate(sorted(files, key=sort_by)):
        if max_files is not None and idx >= max_files:
            print(f"{sub_indent_str}...")
            break
        print(f"{sub_indent_str}{filepath.name}")

Example output:

some_path/
    some_subdir/
    another_subdir/
        foo.txt
        bar.txt
    big_subdir/
        a00001.txt
        a00002.txt
        a00003.txt
        ...
    deeply_nested/
        max_depth1/
        max_depth2/

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