I realised that the
open() function I've been using was an alias to
io.open() and that importing
os would overshadow that.
What's the difference between opening files through the
io module and
io.open() is the preferred, higher-level interface to file I/O. It wraps the OS-level file descriptor in an object that you can use to access the file in a Pythonic manner.
os.open() is just a wrapper for the lower-level POSIX syscall. It takes less symbolic (and more POSIX-y) arguments, and returns the file descriptor (a number) that represents the opened file. It does not return a file object; the returned value will not have
This function is intended for low-level I/O. For normal usage, use the built-in function
open(), which returns a “file object” with
write()methods (and many more).
os.open() takes a filename as a string, the file mode as a bitwise mask of attributes, and an optional argument that describes the file permission bits, and returns a file descriptor as an integer.
io.open() takes a filename as a string or a file descriptor as an integer, the file mode as a string, and optional arguments that describe the file encoding, buffering used, how encoding errors and newlines are handled, and if the underlying FD is closed when the file is closed, and returns some descendant of
os.open is very similar to
open() from C in Unix. You're unlikely to want to use it unless you're doing something much more low-level. It gives you an actual file descriptor (as in, a number, not an object).
io.open is your basic Python
open() and what you want to use just about all the time.
To add to the existing answers:
I realised that the open() function I've been using was an alias to io.open()
io.open() in Python 3 only. In Python 2 they are different.
open() in Python we can obtain an easy-to-use file object with handy
write() methods, on the OS level files are accessed using file descriptors (or file handles in Windows). Thus,
os.open() should be used implicitly under the hood. I haven't examined Python source code in this regard, but the documentation for the
opener parameter, which was added for
open() in Python 3.3, says:
A custom opener can be used by passing a callable as opener. The underlying file descriptor for the file object is then obtained by calling opener with (file, flags). opener must return an open file descriptor (passing
os.openas opener results in functionality similar to passing
os.open() is the default opener for
open(), and we also have the ability to specify a custom wrapper around it if file flags or mode need to be changed. See the documentation for
open() for an example of a custom opener, which opens a file relative to a given directory.
os.open() method opens the file file and set various flags according to flags and possibly its mode according to mode.
The default mode is 0777 (octal), and the current unmask value is first masked out.
This method returns the file descriptor for the newly opened file.
io.open() method opens a file, in the mode specified in the string mode. It returns a new file handle, or, in case of errors, nil plus an error message.
Hope this helps
Database and system application developers usually use
open instead of
fopen as the former provides finer control on when, what and how the memory content should be written to its backing store (i.e., file on disk).
In Unix-like operating system,
open is used to open regular file, socket end-point, device, pipe, etc. A positive file descriptor number is returned for every successful
open function call. It provides a consistent API and framework to check for event notification, etc on a variety of these objects.
fopen is a standard C function and is normally used to open regular file and return a
FILE data structure.
fopen, actually, will call
fopen is good enough for normal usage as developers do not need to worry when to flush or sync memory content to the disk and do not need event notification.