In Python, and in general - does a close() operation on a file object imply a flush() operation?


5 Answers 5


Yes. It uses the underlying close() function which does that for you (source).

  • 2
    (In other words: That file I/O is buffered is large abstracted and hidden away from you. Doing an open, write, close shouldn't leave stuff unwritten as that's what you already intended with write. A buffer that routinely eats what gets thrown at it would be quite a bad design [or a hungry buffer].)
    – Joey
    Mar 15, 2010 at 12:54
  • 1
    Thanks, that was my guess too. But is this true cross-platform, cross-OS, and cross-languages?
    – Adam Matan
    Mar 15, 2010 at 12:57
  • @Adam Matan: That's why Python sits on top of the C libraries. To assure that "this true cross-platform, cross-OS". I don't know what "cross-languages" means.
    – S.Lott
    Mar 15, 2010 at 13:18
  • 3
    +1 Thanks. By "cross-language" I meant to ask whether this behavior is similar in the vast majority of modern programming languages.
    – Adam Matan
    Mar 15, 2010 at 15:25
  • 1
    "Yes. It uses the underlying close() function which does that for you..." -> I think you should read man 2 close() again, because this is not true. May 17, 2021 at 15:23

NB: close() and flush() won't ensure that the data is actually secure on the disk. It just ensures that the OS has the data == that it isn't buffered inside the process.

You can try sync or fsync to get the data written to the disk.

  • True, but doesn't modern OS write the data to the disk upon process termination?
    – Adam Matan
    Mar 15, 2010 at 13:55
  • 1
    Depends on the time scales you are talking about. e.g. some versions of ext4 might wait whole seconds before committing your data to the disc. Mar 15, 2010 at 14:44
  • +1 If the order of magnitude is seconds, I'm quite safe. Thanks!
    – Adam Matan
    Mar 15, 2010 at 15:22

Yes, in Python 3 this is finally in the official documentation, but is was already the case in Python 2 (see Martin's answer).


As a complement to this question, yes python flushes before close, however if you want to ensure data is written properly to disk this is not enough.

This is how I would write a file in a way that it's atomically updated on a UNIX/Linux server, whenever the target file exists or not. Note that some filesystem will implicitly commit data to disk on close+rename (ext3 with data=ordered (default), and ext4 initially uncovered many application flaws before adding detection of write-close-rename patterns and sync data before metadata on those[1]).

# Write destfile, using a temporary name .<name>_XXXXXXXX
base, name = os.path.split(destfile)
tmpname = os.path.join(base, '.{}_'.format(name))  # This is the tmpfile prefix
with tempfile.NamedTemporaryFile('w', prefix=tmpname, delete=False) as fd:
    # Replace prefix with actual file path/name
    tmpname = str(fd.name)

        # Write fd here... ex:
        json.dumps({}, fd)

        # We want to fdatasync before closing, so we need to flush before close anyway

        # Since we're using tmpfile, we need to also set the proper permissions
        if os.path.exists(destfile):
            # Copy destination file's mask
            os.fchmod(fd.fileno, os.stat(destfile).st_mode)
            # Set mask based on current umask value
            umask = os.umask(0o22)
            os.fchmod(fd.fileno, 0o666 & ~umask)  # 0o777 for dirs and executable files

        # Now we can close and rename the file (overwriting any existing one)
        os.rename(tmpname, destfile)
        # On error, try to cleanup the temporary file
        except OSError:

IMHO it would have been nice if Python provided simple methods around this... At the same time I guess if you care about data consistency it's probably best to really understand what is going on at a low level, especially since there are many differences across various Operating Systems and Filesystems.

Also note that this does not guarantee the written data can be recovered, only that you will get a consistent copy of the data (old or new). To ensure the new data is safely written and accessible when returning, you need to use os.fsync(...) after the rename, and even then if you have unsafe caches in the write path you could still lose data. this is common on consumer-grade hardware although any system can be configured for unsafe writes which boosts performance too. At least even with unsafe caches, the method above should still guarantee whichever copy of the data you get is valid.

  • By the way I think we could just close and fdatasync right before the rename - I'm not sure if I had any reason to sync before close, maybe just to not change the mode before the data is flushed (as an indication the write was complete? but the rename does that too), and it's not much longer either as it would save just one line. Mar 2, 2022 at 5:04

filehandle.close does not necessarily flush. Surprisingly, filehandle.flush doesn't help either---it still can get stuck in the OS buffers when Python is running. Observe this session where I wrote to a file, closed it and Ctrl-Z to the shell command prompt and examined the file:

$  cat xyz
$ fg

>>> x=open("xyz","a")
>>> x.write("morestuff\n")
>>> x.write("morestuff\n")
>>> x.write("morestuff\n")
>>> x.flush
<built-in method flush of file object at 0x7f58e0044660>
>>> x.close
<built-in method close of file object at 0x7f58e0044660>
[1]+  Stopped                 python
$ cat xyz

Subsequently I can reopen the file, and that necessarily syncs the file (because, in this case, I open it in the append mode). As the others have said, the sync syscall (available from the os package) should flush all buffers to disk but it has possible system-wide performance implications (it syncs all files on the system).

  • 24
    Hm - I suspect your problem there is that you didn't actually call flush() or close() - you just ended up displaying their representation! You need parens to call those methods.
    – Dan Fairs
    Jan 8, 2013 at 14:52

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