Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Interesting usecase today: I need to migrate a module in our codebase following code changes. The old mynamespace.Document will disappear and I want to ensure smooth migration by replacing this package by a code object that will dynamically import the correct path and migrate the corresponding objects.

In short:

# instanciate a dynamic package, but do not load
# statically submodules
mynamespace.Document = SomeObject()
assert 'submodule' not in mynamespace.Document.__dict__

# and later on, when importing it, the submodule
# is built if not already available in __dict__
from namespace.Document.submodule import klass
c = klass()

A few things to note:

  • I am not talking only of migrating code. A simple huge sed would in a sense be enough to change the code in order to migrate some imports, and I would not need a dynamic module. I am talking of objects. A website, holding some live/stored objects will need migration. Those objects will be loaded assuming that mynamespace.Document.submodule.klass exists, and that's the reason for the dynamic module. I need to provide the site with something to load.
  • We cannot, or do not want to change the way objects are unpickled/loaded. For simplicity, let's just say that we want to make sure that the idiom from mynamespace.Document.submodule import klass has to work. I cannot use instead from mynamespace import Document as container; klass = getattr(getattr(container, 'submodule'), 'klass')

What I tried:

import sys
from types import ModuleType

class VerboseModule(ModuleType):
    def __init__(self, name, doc=None):
        super(VerboseModule, self).__init__(name, doc)
        sys.modules[name] = self
    def __repr__(self):
        return "<%s %s>" % (self.__class__.__name__, self.__name__)
    def __getattribute__(self, name):
        if name not in ('__name__', '__repr__', '__class__'):
            print "fetching attribute %s for %s" % (name, self)
        return super(VerboseModule, self).__getattribute__(name)

class DynamicModule(VerboseModule):
    """
    This module generates a dummy class when asked for a component
    """
    def __getattr__(self, name):
        class Dummy(object):
            pass
        Dummy.__name__ = name
        Dummy.__module__ = self
        setattr(self, name, Dummy)
        return Dummy
class DynamicPackage(VerboseModule):
    """
    This package should generate dummy modules
    """
    def __getattr__(self, name):
        mod = DynamicModule("%s.%s" % (self.__name__, name))
        setattr(self, name, mod)
        return mod

DynamicModule("foobar")
# (the import prints:)
# fetching attribute __path__ for <DynamicModule foobar>
# fetching attribute DynamicModuleWorks for <DynamicModule foobar>
# fetching attribute DynamicModuleWorks for <DynamicModule foobar>
from foobar import DynamicModuleWorks
print DynamicModuleWorks

DynamicPackage('document')
# fetching attribute __path__ for <DynamicPackage document>
from document.submodule import ButDynamicPackageDoesNotWork
# Traceback (most recent call last):
# File "dynamicmodule.py", line 40, in <module>
#   from document.submodule import ButDynamicPackageDoesNotWork
#ImportError: No module named submodule

As you can see the Dynamic Package does not work. I do not understand what is happening because document is not even asked for a ButDynamicPackageDoesNotWork attribute.

Can anyone clarify what is happening; and if/how I can fix this?

share|improve this question

1 Answer 1

The problem is that python will bypass the entry in for document in sys.modules and load the file for submodule directly. Of course this doesn't exist.

demonstration:

>>> import multiprocessing
>>> multiprocessing.heap = None
>>> import multiprocessing.heap
>>> multiprocessing.heap
<module 'multiprocessing.heap' from '/usr/lib/python2.6/multiprocessing/heap.pyc'>

We would expect that heap is still None because python can just pull it out of sys.modules but That doesn't happen. The dotted notation essentially maps directly to {something on python path}/document/submodule.py and an attempt is made to load that directly.

Update

The trick is to override pythons importing system. The following code requires your DynamicModule class.

import sys

class DynamicImporter(object):
    """this class works as both a finder and a loader."""
    def __init__(self, lazy_packages):
        self.packages = lazy_packages

    def load_module(self, fullname):
        """this makes the class a loader. It is given name of a module and expected
           to return the module object"""
        print "loading {0}".format(fullname)
        components = fullname.split('.')
        components = ['.'.join(components[:i+1])
                      for i in range(len(components))]
        for component in components:
            if component not in sys.modules:
                DynamicModule(component)
                print "{0} created".format(component)
        return sys.modules[fullname]


    def find_module(self, fullname, path=None):
        """This makes the class a finder. It is given the name of a module as well as
           the package that contains it (if applicable). It is expected to return a 
           loader for that module if it knows of one or None in which case other methods
           will be tried"""
        if fullname.split('.')[0] in self.packages:
            print "found {0}".format(fullname)
            return self
        else:
            return None


# This is a list of finder objects which is empty by defaule
# It is tried before anything else when a request to import a module is encountered.
sys.meta_path=[DynamicImporter('foo')]

from foo.bar import ThisShouldWork
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.