As of Python 3.3, we get namespace packages. These are a special kind of package that allows you to unify two packages with the same name at different points on your Python-path. For example, consider path1 and path2 as separate entries on your Python-path:
with this arrangement you should be able to do the following:
from namespace import module1, module3
thus you get the unification of two packages with the same name in a single namespace.
If either one of them gain an
__init__.py that becomes the package - and you no longer get the unification as the other directory is ignored.
If both of them have an
__init__.py, the first one in the PYTHONPATH (
sys.path) is the one used.
__init__.py used to be required to make directory a package
Namespace packages are packages without the
For an example of a simple package, if you have a directory:
While you could run these files independently in the
package directory, e.g. with
python2 file1.py, under Python 2 you wouldn't be able to import the files as modules in the root directory, e.g.
would fail, and in order for it to work, you at least need this:
__init__.py initializes the package so you can have code in the
__init__.py that is run when the module is first imported:
__all__ list of names to be imported,
__all__ = ['star_import', 'only', 'these', 'names']
if the package is imported with the following:
from module import *
or you can leave the
__init__.py completely empty if you only want to be able to import the remaining .py files in the directory.
__init__.py using pkgutil:
You could originally use pkgutil, available since Python 2.3. to accomplish adding namespaces, by adding the following into each separate package's
from pkgutil import extend_path
__path__ = extend_path(__path__, __name__)
Setuptools uses a similar method, again, all
__init__.py files should contain the following (with no other code):
Namespaces were more thoroughly addressed in PEP 420
See also more discussion on setuptools and Namespaces here: