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Let's say I have the following directory structure:


In the a package's __init__.py, the c package is imported. But c_file.py imports a.b.d.

The program fails, saying b doesn't exist when c_file.py tries to import a.b.d. (And it really doesn't exist, because we were in the middle of importing it.)

How can this problem be remedied?

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Maybe you could try relative imports? stackoverflow.com/questions/72852/… – eremzeit Sep 2 '11 at 0:30
up vote 53 down vote accepted

If a depends on c and c depends on a, aren't they actually the same unit then?

You should really examine why you have split a and c into two packages, because either you have some code you should split off into another package (to make them both depend on that new package, but not each other), or you should merge them into one package.

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Yes, they could be considered the same package. But if this results in a massively huge file then it's impractical. I agree that frequently, circular dependencies mean the design should be thought through again. But there ARE some design patterns where it's appropriate (and where merging the files together would result in a huge file) so I think it's dogmatic to say that the packages should either be combined or the design should be re-evaluated. – Matthew Lund Dec 1 '11 at 21:49

You may defer the import, for example in a/__init__.py:

def my_function():
    from a.b.c import Blah
    return Blah()

that is, defer the import until it is really needed. However, I would also have a close look at my package definitions/uses, as a cyclic dependency like the one pointed out might indicate a design problem.

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Glad you pointed this out, this worked perfectly for me. I did carefully consider my design and thought that in this case, it's good. – Matthew Lund Dec 1 '11 at 21:52
Sometimes circular references are truly unavoidable. This is the only approach that works for me in these circumstances. – Jason Polites Mar 12 '13 at 21:29
Wouldn't this add a lot of overhead in every call of foo ? – Mr_and_Mrs_D Sep 17 '14 at 23:15
@Mr_and_Mrs_D - only moderately. Python keeps all imported modules in a global cache (sys.modules), so once a module has been loaded, it won't be loaded again. The code might involve a name look up on each call to my_function, but so does code, which references symbols via qualified names (e.g., import foo; foo.frobnicate()) – Dirk Sep 18 '14 at 7:55
Sometimes circular references are precisely the correct way to model the problem. The notion that circular dependencies are somehow an indication of poor design seems to be more a reflection on Python as a language rather than a legitimate design point. – Julie in Austin May 25 '15 at 6:34

I've wondered this a couple times (usually while dealing with models that need to know about each other). The simple solution is just to import the whole module, then reference the thing that you need.

So instead of doing

from models import Student

in one, and

from models import Classroom

in the other, just do

import models

in one of them, then call models.Classroom when you need it.

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Elegant and brilliant!! – nish May 7 '15 at 15:46

The problem is that when running from a directory, by default only the packages that are sub directories are visible as candidate imports, so you cannot import a.b.d. You can however import b.d. since b is a sub package of a.

If you really want to import a.b.d in c/__init__.py you can accomplish this by changing the system path to be one directory above a and change the import in a/__init__.py to be import a.b.c.

Your a/__init__.py should look like this:

import sys
import os
# set sytem path to be directory above so that a can be a 
# package namespace
DIRECTORY_SCRIPT = os.path.dirname(os.path.realpath(__file__)) 
import a.b.c

An additional difficulty arises when you want to run modules in c as scripts. Here the packages a and b do not exist. You can hack the __int__.py in the c directory to point the sys.path to the top-level directory and then import __init__ in any modules inside c to be able to use the full path to import a.b.d. I doubt that it is good practice to import __init__.py but it has worked for my use cases.

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Another solution is to use a proxy for the d_file.

For example, let's say that you want to share the blah class with the c_file. The d_file thus contains:

class blah:
    def __init__(self):

Here is what you enter in c_file.py:

# do not import the d_file ! 
# instead, use a place holder for the proxy of d_file
# it will be set by a's __init__.py after imports are done
d_file = None 

def c_blah(): # a function that calls d_file's blah

And in a's init.py:

from b.c import c_file
from b.d import d_file

class Proxy(object): # module proxy
d_file_proxy = Proxy()
# now you need to explicitly list the class(es) exposed by d_file
d_file_proxy.blah = d_file.blah 
# finally, share the proxy with c_file
c_file.d_file = d_file_proxy

# c_file is now able to call d_file.blah
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modifying global module attributes in a different file like that will quickly lead to a nightmare – Antimony Jul 29 '12 at 2:49

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