Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I'm looking for techniques that allow users to override modules in an application or extend an application with new modules.

Imagine an application called pydraw. It currently provides a Circle class, which inherits Shape. The package tree might look like:

/usr/lib/python/
└── pydraw
    ├── __init__.py
    ├── shape.py
    └── shapes
        ├── circle.py
        └── __init__.py

Now suppose I'd like to enable dynamic discovery and loading of user modules that implement a new shape, or perhaps even the Shape class itself. It seems most straightforward for a user's tree to have the same structure as the application tree, such as:

/home/someuser/python/
└── pydraw
    ├── __init__.py
    ├── shape.py       <-- new superclass
    └── shapes
        ├── __init__.py
        └── square.py   <-- new user class

In other words, I'd like to overlay and mask an application tree with same-named files from the user's tree, or at least get that apparent structure from a Python point of view.

Then, by configuring sys.path or PYTHONPATH, pydraw.shapes.square might be discoverable. However, Python's module path search doesn't find modules such as square.py. I presume this is because __method__ already contains a parent module at another path.

How would you accomplish this task with Python?

share|improve this question
up vote 1 down vote accepted

If you want to load python code dynamically from different locations, you can extend the search __path__ attributes by using the pkgutil module:

By placing these lines into each pydraw/__init__.py and pydraw/shapes/__init__.py:

from pkgutil import extend_path
__path__ = extend_path(__path__, __name__)

You will be able to write import statement as if you had a unique package:

>>> import pydraw.shapes
>>> pydraw.shapes.__path__
['/usr/lib/python/pydraw/shapes', '/home/someuser/python/pydraw/shapes']
>>> from pydraw.shapes import circle, square
>>>

You may think about auto-registration of your plugins. You can still use basic python code for that by setting a module variable (which will act as a kind of singleton pattern).

Add the last line in every pydraw/shapes/__init__.py file:

 from pkgutil import extend_path
 __path__ = extend_path(__path__, __name__)

 # your shape registry
 __shapes__ = []

You can now register a shape in top of its related module (circle.py or square.py here).

 from pydraw.shapes import __shapes__
 __shapes__.append(__name__)

Last check:

 >>> from pydraw.shapes import circle,square
 >>> from pydraw.shapes import circle,square,__shapes__
 >>> __shapes__
 ['pydraw.shapes.circle', 'pydraw.shapes.square']
share|improve this answer
    
Thanks Julien- extend_path is exactly what I was looking for! I mistakenly believed that a package could be loaded from only one directory tree. – Reece Oct 9 '11 at 14:19

Discovery of extensions can be a bit brittle and complex, and also requires you to look through all of PYTHONPATH which can be very big.

Instead, have a configuration file that lists the plugins that should be loaded. This can be done by listing them as module names, and also requiring that they are located on the PYTHONPATH, or by simply listing the full paths.

If you want per user level configurations, I'd have both a global configuration file that lists modules, and a per user one, and just read these config files instead of trying some discovery mechanism.

Also you are trying to not only add plugins, but override components of your application. For that I would use the Zope Component Architecture. It is however not yet fully ported to Python 3, but it's designed to be used in exactly this kinds of cases, although from your description this seems to be a simple case, and the ZCA might be overkill. But look at it anyway.

share|improve this answer

A method I used to handle such a problem was with a provider pattern.

In your module shape.py :

class BaseShape:
   def __init__(self):
      pass
provider("BaseShape", BaseShape)

and in the user's shape.py module :

class UserBaseShape:
   def __init__(self):
      pass
provider("BaseShape", UserBaseShape)

with provider method doing something like this :

def provider(provide_key, provider_class):
   global_providers[provide_key] = provider_class

And when you need to instanciate an object, use a ProvideFactory like this

class ProvideFactory:
   def get(self, provide_key, *args, **kwargs):
      return global_providers[provide_key](*args, **kwargs)
share|improve this answer
    
You can probably clean this up a bit by using decorators. I don't really see where the term "provider pattern" comes from; this looks to me like a fairly ordinary abstract factory. – Karl Knechtel Aug 26 '11 at 9:57
    
@Karl Knechtel : yep, we could use class decorators, but in this case I tried to explain the idea, not really implement all ;) . For the provider pattern, you're right, it's pretty much close to the Abstract Factory pattern, I used to name it provider pattern because it is the way I've been taught about... – Cédric Julien Aug 26 '11 at 10:16
    
This is similar to what ZCA does, but of course with a lot less features. It could make sense in simple cases when you don't want external dependencies. – Lennart Regebro Aug 26 '11 at 11:04

You can detect file changes within a certain directory with OS-specific methods. For all operating systems, there exist file monitoring tools that produce events when a file or directory is changed. Alternatively, you can continuously search for files newer than the time of the last search. There are multiple possible solutions, but in any case:

  • configuring a plugins directory makes things a lot easier than monitoring your complete file system.
  • looking for file changes in a separate thread is probably the best solution
  • if a new .py file is found, you can import it using the __import__ built-in function
  • if a .py is changed, you can re-import it with the reload built-in function
  • If a class is changed, the instances of that class will still behave like instances of the old class, so make sure to recreate instances when necessary

EDIT:

If you add your plugins directory as the first directory in PYTHONPATH, that directory will have priority over the other directories in pythonpath, e.g.

import sys
sys.path.insert(0, 'PLUGIN_DIR')
share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.