Before you keep reading...
Runestone Academy can only continue if we get support from individuals like you. As a student you are well aware of the high cost of textbooks. Our mission is to provide great books to you for free, but we ask that you consider a $10 donation, more if you can or less if $10 is a burden.
Before you keep reading...
Making great stuff takes time and $$. If you appreciate the book you are reading now and want to keep quality materials free for other students please consider a donation to Runestone Academy. We ask that you consider a $10 donation, but if you can give more thats great, if $10 is too much for your budget we would be happy with whatever you can afford as a show of support.
10.5. Finding a File in your Filesystem¶
In the examples we have provided, and in the simulated file system that we’ve built for this online textbook, all files sit in a single directory, and it’s the same directory where the Python program is stored. Thus, we can just write
If you have installed Python on your local computer and you are trying to get file reading and writing operations to work, there’s a little more that you may need to understand. Computer operating systems (like Windows and the Mac OS) organize files into a hierarchy of folders, with some folders containing other folders.
If your file and your Python program are in the same directory you can simply use
the filename. For example, with the file hierarchy in the diagram, the file myPythonProgram.py could contain the code
If your file and your Python program are in different directories, however, then you need to specify a path. You can think of the filename as the short name for a file, and the path as the full name. Typically, you will specify a relative file path, which says where to find the file to open, relative to the directory where the code is running from. For example, the file myPythonProgram.py could contain the code
open('../myData/data2.txt', 'r'). The
../ means to go up one level in the directory structure, to the containing folder (allProjects);
myData/ says to descend into the myData subfolder.
There is also an option to use an absolute file path. For example, suppose the file structure in the figure is stored on a computer in the user’s home directory, /Users/joebob01/myFiles. Then code in any Python program running from any file folder could open data2.txt via
open('/Users/joebob01/myFiles/allProjects/myData/data2.txt', 'r'). You can tell an absolute file path because it begins with a /.
If you will ever move your programs and data to another computer (e.g., to share them with someone else), it will be much more convenient if your use relative file paths rather than absolute. That way, if you preserve the folder structure when moving everything, you won’t need to change your code. If you use absolute paths, then the person you are sharing with probably not have the same home directory name, /Users/joebob01/. Note that Python pathnames follow the UNIX conventions (Mac OS is a UNIX variant), rather than the Windows file pathnames that use : and \. The Python interpreter will translate to Windows pathnames when running on a Windows machine; you should be able to share your Python program between a Windows machine and a MAC without having to rewrite the file open commands.
For security reasons, our code running in your browser doesn’t read or write files to your computer’s file system. Later, when you run Python natively on your own computer, you will be able to truly read files, using path names as suggested above. To get you started, we have faked it by providing a few files that you can read as if they were on your hard disk. In this chapter, we simulate the existence of one textfile; you can’t open any other files from your local computer from textbook code running in your browser.
Check Your Understanding