Yes, but not using Python's standard
open() call. You'll need to use
os.open() instead, which allows you to specify flags to the underlying C code.
In particular, you want to use
O_CREAT | O_EXCL. From the man page for
O_EXCL on my Unix system:
Ensure that this call creates the file: if this flag is specified in conjunction with
O_CREAT, and pathname already exists, then
open() will fail. The behavior of
O_EXCL is undefined if
O_CREAT is not specified.
When these two flags are specified, symbolic links are not followed: if pathname is a symbolic link, then
open() fails regardless of where the symbolic link points to.
O_EXCL is only supported on NFS when using NFSv3 or later on kernel 2.6 or later. In environments where NFS
O_EXCL support is not provided, programs that rely on it for performing locking tasks will contain a race condition.
So it's not perfect, but AFAIK it's the closest you can get to avoiding this race condition.
Edit: the other rules of using
os.open() instead of
open() still apply. In particular, if you want use the returned file descriptor for reading or writing, you'll need one of the
O_RDWR flags as well.
O_* flags are in Python's
os module, so you'll need to
import os and use
flags = os.O_CREAT | os.O_EXCL | os.O_WRONLY
file_handle = os.open('filename', flags)
except OSError as e:
if e.errno == errno.EEXIST: # Failed as the file already exists.
else: # Something unexpected went wrong so reraise the exception.
else: # No exception, so the file must have been created successfully.
with os.fdopen(file_handle, 'w') as file_obj:
# Using `os.fdopen` converts the handle to an object that acts like a
# regular Python file object, and the `with` context manager means the
# file will be automatically closed when we're done with it.
file_obj.write("Look, ma, I'm writing to a new file!")