I am using Python to write chunks of text to files in a single operation:

open(file, 'w').write(text)

If the script is interrupted so a file write does not complete I want to have no file rather than a partially complete file. Can this be done?


Write data to a temporary file and when data has been successfully written, rename the file to the correct destination file e.g

f = open(tmpFile, 'w')
# make sure that all data is on disk
# see http://stackoverflow.com/questions/7433057/is-rename-without-fsync-safe

os.rename(tmpFile, myFile)

According to doc http://docs.python.org/library/os.html#os.rename

If successful, the renaming will be an atomic operation (this is a POSIX requirement). On Windows, if dst already exists, OSError will be raised even if it is a file; there may be no way to implement an atomic rename when dst names an existing file


The operation may fail on some Unix flavors if src and dst are on different filesystems.


  • It may not be atomic operation if src and dest locations are not on same filesystem

  • os.fsync step may be skipped if performance/responsiveness is more important than the data integrity in cases like power failure, system crash etc

  • 4
    but you might want to add os.fsync(f) before f.close(), as that will ensure the new file's data is actually on disk – Dan D. Mar 8 '11 at 11:58
  • 7
    For completeness, the tempfile module provides an easy, safe way to create temporary files. – itsadok Aug 29 '11 at 4:54
  • 8
    And for more completeness: rename is atomic only within same filesystem on POSIX, so the easiest way is to create tmpFile in the directory of myFile. – darkk Jan 13 '12 at 15:10
  • I found this won't work on Windows if the file already exists: "On Windows, if dst already exists, OSError will be raised" – hoju Jun 30 '12 at 8:29
  • 2
    @J.F.Sebastian note that sqlite add this fsync(opendir(filename)) to ensure that rename is written to disk too. This does not affect atomicity of this modification, only relative order of this operation vs prev/next on a different file. – Dima Tisnek Mar 14 '14 at 12:09

A simple snippet that implements atomic writing using Python tempfile.

with open_atomic('test.txt', 'w') as f:

or even reading and writing to and from the same file:

with open('test.txt', 'r') as src:
    with open_atomic('test.txt', 'w') as dst:
        for line in src:

using two simple context managers

import os
import tempfile as tmp
from contextlib import contextmanager

def tempfile(suffix='', dir=None):
    """ Context for temporary file.

    Will find a free temporary filename upon entering
    and will try to delete the file on leaving, even in case of an exception.

    suffix : string
        optional file suffix
    dir : string
        optional directory to save temporary file in

    tf = tmp.NamedTemporaryFile(delete=False, suffix=suffix, dir=dir)
        yield tf.name
        except OSError as e:
            if e.errno == 2:

def open_atomic(filepath, *args, **kwargs):
    """ Open temporary file object that atomically moves to destination upon

    Allows reading and writing to and from the same filename.

    The file will not be moved to destination in case of an exception.

    filepath : string
        the file path to be opened
    fsync : bool
        whether to force write the file to disk
    *args : mixed
        Any valid arguments for :code:`open`
    **kwargs : mixed
        Any valid keyword arguments for :code:`open`
    fsync = kwargs.get('fsync', False)

    with tempfile(dir=os.path.dirname(os.path.abspath(filepath))) as tmppath:
        with open(tmppath, *args, **kwargs) as file:
                yield file
                if fsync:
        os.rename(tmppath, filepath)
  • The temp file needs to be on the same file system as the file to be replaced. This code will not work reliably on systems with multiple file systems. The NamedTemporaryFile invocation needs a dir= paramter. – textshell Jul 16 '16 at 22:16
  • Thanks for the comment, I've recently changed this snippet to fall back to shutil.move in case of os.rename failing. This allows it to work across FS boundaries. – Nils Werner Jul 18 '16 at 10:16
  • 1
    That appears to work when running it, but shutil.move uses copy2 which is not atomic. And if copy2 wanted to be atomic it would need to create a temporary file in the same file system as the destination file. So, the fix to fall back to shutil.move maskes the problem only. That is why most snippets place the temporary file into the same directory as the target file. Which is also possible using tempfile.NamedTemporaryFile using the dir named argument. As moving over a file in a directory which is not writable doesn’t work anyway that seem to be the simplest and most robust solution. – textshell Jul 18 '16 at 17:17
  • Correct, I assumed that shutils.move() was non-atomic due to shutils.copy2() and shutils.remove() called in succession. The new implementation (see edit) will now instead create the file in the current directory and also handle exceptions better. – Nils Werner Jul 19 '16 at 12:23
  • How come this be atomic while reading and writing to same file? In the example above open('test.txt', 'r') as src: is used to read the file contents. Writing in this sense is atomic but reading might not be the same case. For file types like .ini playup with decorators when used with configparser for read operations. Not sure this sample completely justifies the atomicity around reading from same file over 200000 threads. This will throw Too Many Open Files error. – bh4r4th Jan 10 '20 at 5:27

Since it is very easy to mess up with the details, I recommend using a tiny library for that. The advantage of a library is that it takes care all these nitty-gritty details, and is being reviewed and improved by a community.

One such library is python-atomicwrites by untitaker which even has proper Windows support:

From the README:

from atomicwrites import atomic_write

with atomic_write('foo.txt', overwrite=True) as f:
    f.write('Hello world.')
    # "foo.txt" doesn't exist yet.

# Now it does.

I’m using this code to atomically replace/write a file:

import os
from contextlib import contextmanager

def atomic_write(filepath, binary=False, fsync=False):
    """ Writeable file object that atomically updates a file (using a temporary file).

    :param filepath: the file path to be opened
    :param binary: whether to open the file in a binary mode instead of textual
    :param fsync: whether to force write the file to disk

    tmppath = filepath + '~'
    while os.path.isfile(tmppath):
        tmppath += '~'
        with open(tmppath, 'wb' if binary else 'w') as file:
            yield file
            if fsync:
        os.rename(tmppath, filepath)
        except (IOError, OSError):


with atomic_write('path/to/file') as f:

It’s based on this recipe.

  • 1
    the while loop is racy it could be that 2 concurrent processes opening the same file. tempfile.NamedTemporaryFile can overcome this. – Mic92 May 31 '16 at 15:29
  • 2
    I think tmppath like this would be better '.{filepath}~{random}' this avoids race conditions if two processes do the same. This does not solve the race condition, but at least you don't get a file with content of two processes. – guettli Oct 11 '16 at 9:53

Answers on this page are quite old, there are now libraries that do this for you.

In particular safer is a library designed to help prevent programmer error from corrupting files, socket connections, or generalized streams. It's quite flexible and amongst other things it has the option to use either memory or temporary files, you can even keep the temp files in case of failure.

Their example is just what you want:

# dangerous
with open(filename, 'w') as fp:
    json.dump(data, fp)
    # If an exception is raised, the file is empty or partly written
# safer
with safer.open(filename, 'w') as fp:
    json.dump(data, fp)
    # If an exception is raised, the file is unchanged.

It's in PyPI, just install it using pip install --user safer or get the latest at https://github.com/rec/safer


Atomic solution for Windows to loop folder and rename files. Tested, atomic to automate, you can increase probability to minimize risk not to event of having same file name. You random library for letter symbols combinations use random.choice method, for digit str(random.random.range(50,999999999,2). You can vary digits range as you want.

import os import random

path = "C:\\Users\\ANTRAS\\Desktop\\NUOTRAUKA\\"

def renamefiles():
    files = os.listdir(path)
    i = 1
    for file in files:
        os.rename(os.path.join(path, file), os.path.join(path, 
                  random.choice('ABCDEFGHIJKL') + str(i) + str(random.randrange(31,9999999,2)) + '.jpg'))
        i = i+1

for x in range(30):

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