Convert line endings in-place (with Python 3)
- Windows -
- Linux/Unix/MacOS -
Windows to Linux/Unix/MacOS (
Here is a short Python script for directly converting Windows line endings to Linux/Unix/MacOS line endings. The script works in-place, i.e., without creating an extra output file.
# replacement strings
WINDOWS_LINE_ENDING = b'\r\n'
UNIX_LINE_ENDING = b'\n'
# relative or absolute file path, e.g.:
file_path = r"c:\Users\Username\Desktop\file.txt"
with open(file_path, 'rb') as open_file:
content = open_file.read()
# Windows ➡ Unix
content = content.replace(WINDOWS_LINE_ENDING, UNIX_LINE_ENDING)
# Unix ➡ Windows
# content = content.replace(UNIX_LINE_ENDING, WINDOWS_LINE_ENDING)
with open(file_path, 'wb') as open_file:
Linux/Unix/MacOS to Windows (
To change the converting from Linux/Unix/MacOS to Windows, simply comment the replacement for
Unix ➡ Windows back in (remove the
# in front of the line).
DO NOT comment out the command for the
Windows ➡ Unix replacement, as it ensures a correct conversion. When converting from
CRLF, it is important that there are no
CRLF line endings already present in the file. Otherwise, those lines would be converted to
CRCRLF. Converting lines from
LF first and then doing the aspired conversion from
CRLF will avoid this issue (thanks @neuralmer for pointing that out).
Important: We need to make sure that we open the file both times in binary mode (
mode='wb') for the conversion to work.
When opening files in text mode (
b), the platform's native line endings (
\r\n on Windows and
\r on old Mac OS versions) are automatically converted to Python's Unix-style line endings:
\n. So the call to
content.replace() couldn't find any
\r\n line endings to replace.
In binary mode, no such conversion is done. Therefore the call to
str.replace() can do its work.
In Python 3, if not declared otherwise, strings are stored as Unicode (
UTF-8). But we open our files in binary mode - therefore we need to add
b in front of our replacement strings to tell Python to handle those strings as binary, too.
On Windows the path separator is a backslash
\ which we would need to escape in a normal Python string with
\\. By adding
r in front of the string we create a so called "raw string" which doesn't need any escaping. So you can directly copy/paste the path from Windows Explorer into your script.
(Hint: Inside Windows Explorer press CTRL+L to automatically select the path from the address bar.)
We open the file twice to avoid the need of repositioning the file pointer. We could also have opened the file once with
mode='rb+' but then we would have needed to move the pointer back to start after reading its content (
open_file.seek(0)) and truncate its original content before writing the new one (
Simply opening the file again in write mode does that automatically for us.
Cheers and happy programming,