How To Navigate the File System with Python’s Pathlib


Picture by Creator

 

In Python, utilizing common strings for filesystem paths could be a ache, particularly if it is advisable to carry out operations on the trail strings. Switching to a special working system causes breaking adjustments to your code, too. Sure, you should utilize os.path from the os module to make issues simpler. However the pathlib module makes all of this way more intuitive.

The pathlib module launched in Python 3.4 (yeah, it’s been round for some time) permits for an OOP method that allows you to create and work with path objects, and comes with batteries included for widespread operations resembling becoming a member of and manipulating paths, resolving paths, and extra.

This tutorial will introduce you to working with the file system utilizing the pathlib module. Let’s get began.

 

Working with Path Objects

 

To begin utilizing pathlib, you first have to import the Path class:

 

Which lets you instantiate path objects for creating and manipulating file system paths.

 

Creating Path Objects

You may create a Path object by passing in a string representing the trail like so:

path = Path('your/path/right here')

 

You may create new path objects from current paths as effectively. As an illustration, you possibly can create path objects from your property listing or the present working listing:

home_dir = Path.residence()
print(home_dir)

cwd = Path.cwd()
print(cwd)

 

This could provide you with the same output:

Output >>>
/residence/balapriya
/residence/balapriya/project1

 

Suppose you’ve gotten a base listing and also you need to create a path to a file inside a subdirectory. Right here’s how you are able to do it:

from pathlib import Path

# import Path from pathlib
from pathlib import Path

# create a base path
base_path = Path("/home/balapriya/Documents")

# create new paths from the bottom path
subdirectory_path = base_path / "projects"https://www.kdnuggets.com/"project1"
file_path = subdirectory_path / "report.txt"

# Print out the paths
print("Base path:", base_path)
print("Subdirectory path:", subdirectory_path)
print("File path:", file_path)

 

This primary creates a path object for the bottom listing: /residence/balapriya/Paperwork. Bear in mind to interchange this base path with a legitimate filesystem path in your working atmosphere.

It then creates subdirectory_path by becoming a member of base_path with the subdirectories tasks and project1. Lastly, the file_path is created by becoming a member of subdirectory_path with the filename report.txt.

As seen, you should utilize the / operator to append a listing or file identify to the present path, creating a brand new path object. Discover how the overloading of the / operator supplies a readable and intuitive technique to be a part of paths.

Whenever you run the above code, it’s going to output the next paths:

Output >>>
Base path: /residence/balapriya/paperwork
Subdirectory path: /residence/balapriya/paperwork/tasks/project1
File path: /residence/balapriya/paperwork/tasks/project1/report.txt

 

Checking Standing and Path Varieties

After you have a legitimate path object, you possibly can name easy strategies on it to examine the standing and sort of the trail.

To examine if a path exists, name the exists() technique:

path = Path("/home/balapriya/Documents")
print(path.exists())

 

 

If the trail exists, it outputs True; else, it returns False.

You may as well examine if a path is a file or listing:


print(path.is_file())
print(path.is_dir())

 

 

 

Notice: An object of the Path class creates a concrete path in your working system. However you may as well use PurePath when it is advisable to deal with paths with out accessing the filesystem, like working with Home windows path on a Unix machine.

 

Navigating the Filesystem

 

Navigating the filesystem is fairly easy with pathlib. You may iterate over the contents of directories, rename and resolve paths, and extra.

You may name the iterdir() technique on the trail object like so to iterate over all of the contents of a listing:

path = Path("/home/balapriya/project1")

# iterating over listing contents

for merchandise in path.iterdir():
    print(merchandise)

 

Right here’s the pattern output:

Output >>>
/residence/balapriya/project1/check.py
/residence/balapriya/project1/principal.py

 

Renaming Recordsdata

You may rename information by calling the rename() technique on the trail object:


path = Path('old_path')
path.rename('new_path')

 

Right here, we rename check.py within the project1 listing to checks.py:

path = Path('/residence/balapriya/project1/check.py')
path.rename('/residence/balapriya/project1/checks.py')

 

Now you can cd into the project1 listing to examine if the file has been renamed.
 

Deleting Recordsdata and Directories

You may as well delete a file and take away empty directories with the unlink() to and rmdir() strategies, respectively.

# For information
path.unlink()   

# For empty directories
path.rmdir()  

 

 

Notice: Properly, in case deleting empty directories received you interested by creating them. Sure, you may as well create directories with mkdir() like so: path.mkdir(mother and father=True, exist_ok=True). The mkdir() technique creates a brand new listing. Setting mother and father=True permits the creation of father or mother directories as wanted, and exist_ok=True prevents errors if the listing already exists.

 

Resolving Absolute Paths

Generally, it’s simpler to work with relative paths and increase to absolutely the path when wanted. You are able to do it with the resolve() technique, and the syntax is tremendous easy:

absolute_path = relative_path.resolve()

 

Right here’s an instance:

relative_path = Path('new_project/README.md')
absolute_path = relative_path.resolve()
print(absolute_path)

 

And the output:

Output >>> /residence/balapriya/new_project/README.md

 

File Globbing

 

Globbing is tremendous useful for locating information matching particular patterns. Let’s take a pattern listing:

projectA/
├── projectA1/
│   └── knowledge.csv
└── projectA2/
	├── script1.py
	├── script2.py
	├── file1.txt
	└── file2.txt

 

Right here’s the trail:

path = Path('/residence/balapriya/projectA')

 

Let’s attempt to discover all of the textual content information utilizing glob():

text_files = checklist(path.glob('*.txt'))
print(text_files)

 

Surprisingly, we don’t get the textual content information. The checklist is empty:

 

It’s as a result of these textual content information are within the subdirectory and glob doesn’t search by means of subdirectories. Enter recursive globbing with rglob().

text_files = checklist(path.rglob('*.txt'))
print(text_files)

 

The rglob() technique performs a recursive seek for all textual content information within the listing and all its subdirectories. So we must always get the anticipated output:

Output >>>
[PosixPath('/home/balapriya/projectA/projectA2/file2.txt'), 
PosixPath('/home/balapriya/projectA/projectA2/file1.txt')]

 

And that is a wrap!

 

Wrapping Up

 

On this tutorial, we have explored the pathlib module and the way it makes file system navigation and manipulation in Python accessible. We’ve coated sufficient floor that will help you create and work with filesystem paths in Python scripts.

Yow will discover the code used on this tutorial on GitHub. Within the subsequent tutorial, we’ll have a look at attention-grabbing sensible purposes. Till then, preserve coding!

 

 

Bala Priya C is a developer and technical author from India. She likes working on the intersection of math, programming, knowledge science, and content material creation. Her areas of curiosity and experience embrace DevOps, knowledge science, and pure language processing. She enjoys studying, writing, coding, and low! Presently, she’s engaged on studying and sharing her information with the developer group by authoring tutorials, how-to guides, opinion items, and extra. Bala additionally creates participating useful resource overviews and coding tutorials.

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