Edit: See also Dave Jones' answer: from Python 3.3, you can use the
x flag to
open() to provide this function.
Original answer below
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!")