You are confusing the built-in
open() function with
os.open() provided by the
os module. They are quite different;
os.open(filename, "w") is not valid Python (
os.open accepts integer flags as its second argument),
open(filename, "w") is.
open() creates new file objects,
os.open() creates OS-level file descriptors, and
os.fdopen() creates a file object out of a file descriptor.
File descriptors are a low-level facility for working with files directly provided by the operating system kernel. A file descriptor is a small integer that identifies the open file in a table of open files kept by the kernel for each process. A number of system calls accept file descriptors, but they are not convenient to work with, typically requiring fixed-width buffers, multiple retries in certain conditions, and manual error handling.
File objects are Python classes that wrap file descriptors to make working with files more convenient and less error-prone. They provide, for example, error-handling, buffering, line-by-line reading, charset conversions, and are closed when garbage collected.
open() takes a file name and returns a new Python file object. This is what you need in the majority of cases.
os.open() takes a file name and returns a new file descriptor. This file descriptor can be passed to other low-level functions, such as
os.write(), or to
os.fdopen(), as described below. You only need this when writing code that depends on operating-system-dependent APIs, such as using the
O_EXCL flag to
os.fdopen() takes an existing file descriptor — typically produced by Unix system calls such as
dup(), and builds a Python file object around it. Effectively it converts a file descriptor to a full file object, which is useful when interfacing with C code or with APIs that only create low-level file descriptors.
open can be emulated by combining
os.open() (to create a file descriptor) and
os.fdopen() (to wrap it in a file object):
# functionally equivalent to open(filename, "r")
f = os.fdopen(os.open(filename, os.O_RDONLY))