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I know the issue of circular imports in python has come up many times before and I have read these discussions. The comment that is made repeatedly in these discussions is that a circular import is a sign of a bad design and the code should be reorganised to avoid the circular import.

Could someone tell me how to avoid a circular import in this situation?: I have two classes and I want each class to have a constructor (method) which takes an instance of the other class and returns an instance of the class.

More specifically, one class is mutable and one is immutable. The immutable class is needed for hashing, comparing and so on. The mutable class is needed to do things too. This is similar to sets and frozensets or to lists and tuples.

I could put both class definitions in the same module. Are there any other suggestions?

A toy example would be class A which has an attribute which is a list and class B which has an attribute which is a tuple. Then class A has a method which takes an instance of class B and returns an instance of class A (by converting the tuple to a list) and similarly class B has a method which takes an instance of class A and returns an instance of class B (by converting the list to a tuple).

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2  
Could you give an example? I'm having trouble following you. – robert Sep 7 '11 at 15:51
    
possible duplicate of Python: Circular (or cyclic) imports – S.Lott Sep 7 '11 at 16:09
    
put everything in a single file :D – Filip Haglund May 9 at 23:18
up vote 48 down vote accepted

Only import the module, don't import from the module:

Consider a.py:

import b

class A:
    def bar(self):
        return b.B()

and b.py:

import a

class B:
    def bar(self):
        return a.A()

This works perfectly fine.

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Wow!! Thanks, I knew the trick putting one of the "from imports" causing the circular import error at the bottom of the module, but this is better! – Caumons Jul 1 '13 at 14:01
21  
Doesn't seem to work with submodules import foobar.mod_a and import foobar.mod_b doesn't work like described above. – Nick Oct 2 '13 at 0:39
2  
Also this has a big disadvantage: You end up with run-time errors instead of import-time errors when you e.g. delete a function and forget to update a reference to it somewhere. – ThiefMaster Feb 24 '15 at 14:26
    
Community: This this answer does not suffice. please read Brenden's below! – Dan Oblinger May 28 at 15:52

Consider the following example python package where a.py and b.py depend on each other:

/package
    __init__.py
    a.py
    b.py

There are several ways to import a module in python

import package.a           # Absolute import
import package.a as a_mod  # Absolute import bound to different name
from package import a      # Alternate absolute import
import a                   # Implicit relative import (deprecated, py2 only)
from . import a            # Explicit relative import

Unfortunately, only the 1st and 4th options actually work when you have circular dependencies (the rest all raise ImportError or AttributeError). In general, you shouldn't be using the 4th syntax, since it only works in python2 and runs the risk of clashing with other 3rd party modules. So really, only the first syntax is guaranteed to work. However, you still have several options when dealing with circular dependencies.

EDIT: The ImportError and AttributeError issues only occur in python 2. In python 3 the import machinery has been rewritten and all of these import statements (with the exception of 4) will work, even with circular dependencies.

Use Absolute Imports

Just use the first import syntax above. The downside to this method is that the import names can get super long for large packages.

In a.py

import package.b

In b.py

import package.a

Defer import until later

I've seen this method used in lots of packages, but it still feels hacky to me, and I dislike that I can't look at the top of a module and see all its dependencies, I have to go searching through all the functions as well.

In a.py

def func():
    from package import b

In b.py

def func():
    from package import a

Put all imports in a central module

This also works, but has the same problem as the first method, where all the package and submodule calls get super long. It also has two major flaws -- it forces all the submodules to be imported, even if you're only using one or two, and you still can't look at any of the submodules and quickly see their dependencies at the top, you have to go sifting through functions.

In __init__.py

from . import a
from . import b

In a.py

import package

def func():
    package.b.some_object()

In b.py

import package

def func():
    package.a.some_object()

So those are your options (and they all kinda suck IMO). Frankly, this seems to be a glaring bug in the python import machinery, but thats just my opinion.

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Brendan, this is an amazingly through answer! I have read a hundred answers about solving circular imports, finally I get it. thx! By the way, you might want to add one more solution to your list: set global for each package to None at top of file, then inject module into global at runtime. This has advantage that all module names are at top of file. – Dan Oblinger May 28 at 15:51

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