If you're working on a script called
main.py in the folder
project, one option is to place it at
This will make the module importable because it's in the same working directory as your code.
The way Python resolves import statements works like this (simplified):
The Python interpreter you're using (
/usr/bin/python2.6 for example, there can be several on your system) has a list of search paths where it looks for importable code. This list is in
sys.path and you can look at it by firing up your interpreter and printing it out like this:
>>> import sys
>>> from pprint import pprint
sys.path usually contains the path to modules from the standard library, additional installed packages (usually in site-packages) and possibly other 3rd party modules.
When you do something like
import foo, Python will first look if there is a module called
foo.py in the directory your script lives. If not, it will search
sys.path and try to import it from there.
As I said, this explanation is a bit simplified. The details are explained in the section about the module search path.
*.pyc you got handed is compiled Python bytecode. That means it's contents are binary, it contains instructions to be executed by a Python virtual machine as opposed to source code in
*.py that you will normally deal with.
The advice your teacher gave you to do
from work import * is rather bad advice. It might be ok to do this for testing purposes in the interactive interpreter, but your should never do that in actual code. Instead you should do something like
from work import chop, hack
- Namespace pollution. You're likely to import things you don't need but still pollute your global namespace.
- Readability. If you ever read someone elses code and wonder where
foo came from, just scroll up and look at the imports, and you'll see exactly where it's being imported from. If that person used
import *, you can't do that.