512

In Python, what happens when two modules attempt to import each other? More generally, what happens if multiple modules attempt to import in a cycle?


See also What can I do about "ImportError: Cannot import name X" or "AttributeError: ... (most likely due to a circular import)"? for the common problem that may result, and advice on how to rewrite code to avoid such imports. See Why do circular imports seemingly work further up in the call stack but then raise an ImportError further down? for technical details on why and how the problem occurs.

4

14 Answers 14

432

If you do import foo (inside bar.py) and import bar (inside foo.py), it will work fine. By the time anything actually runs, both modules will be fully loaded and will have references to each other.

The problem is when instead you do from foo import abc (inside bar.py) and from bar import xyz (inside foo.py). Because now each module requires the other module to already be imported (so that the name we are importing exists) before it can be imported.

7
  • 61
    It seems that from foo import * and from bar import * will also work fine.
    – Akavall
    May 12, 2014 at 16:54
  • 3
    Check the edit to the post above using a.py/b.py. He does not use from x import y, and yet still gets the circular import error
    – Greg Ennis
    Jun 30, 2014 at 14:09
  • 2
    This is not entirely true. Just like import * from, if you attempt to access an element in the circular import, at the top level, so before the script completes its run, then you will have the same issue. For instance if you are setting a package global in one package from another, and they both include each other. I was doing this to create a sloppy factory for an object in the base class where that object could be one of a number of subclasses and the using code did not need to be aware of which it was actually creating.
    – AaronM
    Apr 13, 2016 at 20:54
  • 4
    @Akavall Not really. That will only import the names that are available when the import statement is executed. So it won't error out but you may not get all the variables you expect.
    – augurar
    Dec 24, 2016 at 1:41
  • 5
    Note, if you do from foo import * and from bar import *, everything executed in the foo is in the initializing phase of bar, and the actual functions in bar has not yet been defined... Jan 18, 2017 at 2:37
353

There was a really good discussion on this over at comp.lang.python last year. It answers your question pretty thoroughly.

Imports are pretty straightforward really. Just remember the following:

'import' and 'from xxx import yyy' are executable statements. They execute when the running program reaches that line.

If a module is not in sys.modules, then an import creates the new module entry in sys.modules and then executes the code in the module. It does not return control to the calling module until the execution has completed.

If a module does exist in sys.modules then an import simply returns that module whether or not it has completed executing. That is the reason why cyclic imports may return modules which appear to be partly empty.

Finally, the executing script runs in a module named __main__, importing the script under its own name will create a new module unrelated to __main__.

Take that lot together and you shouldn't get any surprises when importing modules.

5
  • 14
    @meawoppl Could you expand this comment, please? How specifically have they changed?
    – Dan Schien
    Apr 7, 2016 at 10:17
  • 3
    As of now, the only reference to circular imports in python3 "What's new?" pages is in the 3.5 one. It says "Circular imports involving relative imports are now supported". @meawoppl have you found anything else what is not listed in these pages?
    – zezollo
    Apr 21, 2016 at 5:38
  • 4
    They are def. not supported in 3.0-3.4. Or at least the semantics for success are different. Here is a synopsis I found that dosn't mention the 3.5 changes. gist.github.com/datagrok/40bf84d5870c41a77dc6
    – meawoppl
    Apr 22, 2016 at 19:02
  • Please can you expand on this "Finally, the executing script runs in a module named main, importing the script under its own name will create a new module unrelated to main.". So lets say the file is a.py and when it runs as main entry point, itsbthe main now if it has code like from a import some variable. Then will the same file 'a.py' get loaded in the sys modules table? So does it mean that if it has say print statement then it will run twice? Once for the main file and again when import is encountered?
    – variable
    Aug 30, 2019 at 3:39
  • This answer is 10 years old, and i would like a modernized update to ensure that it remains correct in various versions of Python, 2.x or 3.x Oct 30, 2019 at 20:15
124

Cyclic imports terminate, but you need to be careful not to use the cyclically-imported modules during module initialization.

Consider the following files:

a.py:

print "a in"
import sys
print "b imported: %s" % ("b" in sys.modules, )
import b
print "a out"

b.py:

print "b in"
import a
print "b out"
x = 3

If you execute a.py, you'll get the following:

$ python a.py
a in
b imported: False
b in
a in
b imported: True
a out
b out
a out

On the second import of b.py (in the second a in), the Python interpreter does not import b again, because it already exists in the module dict.

If you try to access b.x from a during module initialization, you will get an AttributeError.

Append the following line to a.py:

print b.x

Then, the output is:

$ python a.py
a in                    
b imported: False
b in
a in
b imported: True
a out
Traceback (most recent call last):
  File "a.py", line 4, in <module>
    import b
  File "/home/shlomme/tmp/x/b.py", line 2, in <module>
    import a
 File "/home/shlomme/tmp/x/a.py", line 7, in <module>
    print b.x
AttributeError: 'module' object has no attribute 'x'

This is because modules are executed on import and at the time b.x is accessed, the line x = 3 has not be executed yet, which will only happen after b out.

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  • 22
    this greatly explains the problem, but how about the solution? how could we properly import and print x? the other solution above did not work for me
    – mehmet
    Mar 27, 2018 at 18:23
  • 2
    I think this answer would benefit a lot if you used __name__ instead of 'a'. At the beginning, I was totally confused why a file would be executed twice.
    – Bergi
    Feb 18, 2020 at 2:46
  • 1
    @mehmet Refactor your project so the import statements form a tree-like structure (main script imports supporting modules which themselves may import their supporting modules etc.). This is the generally advisable approach.
    – Jeyekomon
    Jan 6, 2021 at 11:30
50

As other answers describe this pattern is acceptable in python:

def dostuff(self):
     from foo import bar
     ...

Which will avoid the execution of the import statement when the file is imported by other modules. Only if there is a logical circular dependency, this will fail.

Most Circular Imports are not actually logical circular imports but rather raise ImportError errors, because of the way import() evaluates top level statements of the entire file when called.

These ImportErrors can almost always be avoided if you positively want your imports on top:

Consider this circular import:

App A

# profiles/serializers.py

from images.serializers import SimplifiedImageSerializer

class SimplifiedProfileSerializer(serializers.Serializer):
    name = serializers.CharField()

class ProfileSerializer(SimplifiedProfileSerializer):
    recent_images = SimplifiedImageSerializer(many=True)

App B

# images/serializers.py

from profiles.serializers import SimplifiedProfileSerializer

class SimplifiedImageSerializer(serializers.Serializer):
    title = serializers.CharField()

class ImageSerializer(SimplifiedImageSerializer):
    profile = SimplifiedProfileSerializer()

From David Beazleys excellent talk Modules and Packages: Live and Let Die! - PyCon 2015, 1:54:00, here is a way to deal with circular imports in python:

try:
    from images.serializers import SimplifiedImageSerializer
except ImportError:
    import sys
    SimplifiedImageSerializer = sys.modules[__package__ + '.SimplifiedImageSerializer']

This tries to import SimplifiedImageSerializer and if ImportError is raised, because it already is imported, it will pull it from the importcache.

PS: You have to read this entire post in David Beazley's voice.

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  • 13
    ImportError is not raised if module have been already imported. Modules can be imported as many times as you want to i.e. "import a; import a;" is ok.
    – Yuras
    May 5, 2016 at 8:39
  • 1
    this would make it a module instead of class from my experiment.
    – Willjay
    Feb 4, 2021 at 21:36
16

To my surprise, no one has mentioned cyclic imports caused by type hints yet.
If you have cyclic imports only as a result of type hinting, they can be avoided in a clean manner.

Consider main.py which makes use of exceptions from another file:

from src.exceptions import SpecificException

class Foo:
    def __init__(self, attrib: int):
        self.attrib = attrib

raise SpecificException(Foo(5))

And the dedicated exception class exceptions.py:

from src.main import Foo

class SpecificException(Exception):
    def __init__(self, cause: Foo):
        self.cause = cause

    def __str__(self):
        return f'Expected 3 but got {self.cause.attrib}.'

This will trivially raise an ImportError as main.py imports exception.py and vice versa through Foo and SpecificException.

Because Foo is only required in exceptions.py during type checking, we can safely make its import conditional using the TYPE_CHECKING constant from the typing module. The constant is only True during type checking, which allows us to conditionally import Foo and thereby avoid the circular import error.
In Python 3.6, with the use of forward references:

from typing import TYPE_CHECKING
if TYPE_CHECKING:  # Only imports the below statements during type checking
   ​from src.main import Foo

class SpecificException(Exception):
   ​def __init__(self, cause: 'Foo'):  # The quotes make Foo a forward reference
       ​self.cause = cause

   ​def __str__(self):
       ​return f'Expected 3 but got {self.cause.attrib}.'

In Python 3.7+, postponed evaluation of annotations (introduced in PEP 563) allows 'normal' types to be used instead of forward references:

from __future__ import annotations
from typing import TYPE_CHECKING
if TYPE_CHECKING:  # Only imports the below statements during type checking
   ​from src.main import Foo

class SpecificException(Exception):
   ​def __init__(self, cause: Foo):  # Foo can be used in type hints without issue
       ​self.cause = cause

   ​def __str__(self):
       ​return f'Expected 3 but got {self.cause.attrib}.'

In Python 3.11+, from __future__ import annotations is active by default and can therefore be omitted.

This answer is based on Yet another solution to dig you out of a circular import hole in Python by Stefaan Lippens.

14

Module a.py :

import b
print("This is from module a")

Module b.py

import a
print("This is from module b")

Running "Module a" will output:

>>> 
'This is from module a'
'This is from module b'
'This is from module a'
>>> 

It output this 3 lines while it was supposed to output infinitival because of circular importing. What happens line by line while running"Module a" is listed here:

  1. The first line is import b. so it will visit module b
  2. The first line at module b is import a. so it will visit module a
  3. The first line at module a is import b but note that this line won't be executed again anymore, because every file in python execute an import line just for once, it does not matter where or when it is executed. so it will pass to the next line and print "This is from module a".
  4. After finish visiting whole module a from module b, we are still at module b. so the next line will print "This is from module b"
  5. Module b lines are executed completely. so we will go back to module a where we started module b.
  6. import b line have been executed already and won't be executed again. the next line will print "This is from module a" and program will be finished.
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  • 2
    this might happen just because a.py, when executed as a script, will be named "module __main__", not "module a". So when it gets to b and encounters import a, now it will import the same file under a different module name, right? What happens when neither are the __main__ script?
    – MestreLion
    Oct 9, 2021 at 3:38
13

I got an example here that struck me!

foo.py

import bar

class gX(object):
    g = 10

bar.py

from foo import gX

o = gX()

main.py

import foo
import bar

print "all done"

At the command line: $ python main.py

Traceback (most recent call last):
  File "m.py", line 1, in <module>
    import foo
  File "/home/xolve/foo.py", line 1, in <module>
    import bar
  File "/home/xolve/bar.py", line 1, in <module>
    from foo import gX
ImportError: cannot import name gX
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  • 2
    How did you fix this? I'm trying to understand circular import to fix a problem of my own that looks very similar to what you're doing...
    – c089
    Aug 9, 2010 at 6:53
  • 14
    Errm... I think I fixed my problem with this incredibly ugly hack. {{{ if not 'foo.bar' in sys.modules: from foo import bar else: bar = sys.modules['foo.bar'] }}} Personally, I think circular imports are a HUGE warning sign on bad code design...
    – c089
    Aug 9, 2010 at 7:01
  • 5
    @c089, or you could just move import bar in foo.py to the end
    – warvariuc
    Aug 5, 2013 at 9:52
  • 6
    If bar and foo both must use gX, the 'cleanest' solution is to put gX in another module and have both foo and bar import that module. (cleanest in the sense that there are no hidden semantic dependencies.)
    – Tim Wilder
    Dec 17, 2013 at 20:32
  • 2
    Tim has a good point. Basically it's because bar can't even find gX in the foo. the circular import is fine by itself, but it's just that gX is not defined when it's imported. Jan 18, 2017 at 3:31
6

There are a lot of great answers here. While there are usually quick solutions to the problem, some of which feel more pythonic than others, if you have the luxury of doing some refactoring, another approach is to analyze the organization of your code, and try to remove the circular dependency. You may find, for example, that you have:

File a.py

from b import B

class A:
    @staticmethod
    def save_result(result):
        print('save the result')

    @staticmethod
    def do_something_a_ish(param):
        A.save_result(A.use_param_like_a_would(param))
    
    @staticmethod
    def do_something_related_to_b(param):
        B.do_something_b_ish(param)

File b.py

from a import A

class B:
    @staticmethod
    def do_something_b_ish(param):
        A.save_result(B.use_param_like_b_would(param))

In this case, just moving one static method to a separate file, say c.py:

File c.py

def save_result(result):
    print('save the result')

will allow removing the save_result method from A, and thus allow removing the import of A from a in b:

Refactored File a.py

from b import B
from c import save_result

class A:
    @staticmethod
    def do_something_a_ish(param):
        save_result(A.use_param_like_a_would(param))
    
    @staticmethod
    def do_something_related_to_b(param):
        B.do_something_b_ish(param)

Refactored File b.py

from c import save_result

class B:
    @staticmethod
    def do_something_b_ish(param):
        save_result(B.use_param_like_b_would(param))

In summary, if you have a tool (e.g. pylint or PyCharm) that reports on methods that can be static, just throwing a staticmethod decorator on them might not be the best way to silence the warning. Even though the method seems related to the class, it might be better to separate it out, especially if you have several closely related modules that might need the same functionality and you intend to practice DRY principles.

4

I completely agree with pythoneer's answer here. But I have stumbled on some code that was flawed with circular imports and caused issues when trying to add unit tests. So to quickly patch it without changing everything you can resolve the issue by doing a dynamic import.

# Hack to import something without circular import issue
def load_module(name):
    """Load module using imp.find_module"""
    names = name.split(".")
    path = None
    for name in names:
        f, path, info = imp.find_module(name, path)
        path = [path]
    return imp.load_module(name, f, path[0], info)
constants = load_module("app.constants")

Again, this isn't a permanent fix but may help someone that wants to fix an import error without changing too much of the code.

Cheers!

2

Circular imports can be confusing because import does two things:

  1. it executes imported module code
  2. adds imported module to importing module global symbol table

The former is done only once, while the latter at each import statement. Circular import creates situation when importing module uses imported one with partially executed code. In consequence it will not see objects created after import statement. Below code sample demonstrates it.

Circular imports are not the ultimate evil to be avoided at all cost. In some frameworks like Flask they are quite natural and tweaking your code to eliminate them does not make the code better.

main.py

print 'import b'
import b
print 'a in globals() {}'.format('a' in globals())
print 'import a'
import a
print 'a in globals() {}'.format('a' in globals())
if __name__ == '__main__':
    print 'imports done'
    print 'b has y {}, a is b.a {}'.format(hasattr(b, 'y'), a is b.a)

b.by

print "b in, __name__ = {}".format(__name__)
x = 3
print 'b imports a'
import a
y = 5
print "b out"

a.py

print 'a in, __name__ = {}'.format(__name__)
print 'a imports b'
import b
print 'b has x {}'.format(hasattr(b, 'x'))
print 'b has y {}'.format(hasattr(b, 'y'))
print "a out"

python main.py output with comments

import b
b in, __name__ = b    # b code execution started
b imports a
a in, __name__ = a    # a code execution started
a imports b           # b code execution is already in progress
b has x True
b has y False         # b defines y after a import,
a out
b out
a in globals() False  # import only adds a to main global symbol table 
import a
a in globals() True
imports done
b has y True, a is b.a True # all b objects are available
2

Suppose you are running a test python file named request.py In request.py, you write

import request

so this also most likely a circular import.

Solution:

Just change your test file to another name such as aaa.py, other than request.py.

Do not use names that are already used by other libs.

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  • 1
    This is my best answer as my issue was just that I've named the file similar to the name of the lib I'm importing from.
    – uak
    Feb 14, 2021 at 9:55
1

I solved the problem the following way, and it works well without any error. Consider two files a.py and b.py.

I added this to a.py and it worked.

if __name__ == "__main__":
        main ()

a.py:

import b
y = 2
def main():
    print ("a out")
    print (b.x)

if __name__ == "__main__":
    main ()

b.py:

import a
print ("b out")
x = 3 + a.y

The output I get is

>>> b out 
>>> a out 
>>> 5
0

Ok, I think I have a pretty cool solution. Let's say you have file a and file b. You have a def or a class in file b that you want to use in module a, but you have something else, either a def, class, or variable from file a that you need in your definition or class in file b. What you can do is, at the bottom of file a, after calling the function or class in file a that is needed in file b, but before calling the function or class from file b that you need for file a, say import b Then, and here is the key part, in all of the definitions or classes in file b that need the def or class from file a (let's call it CLASS), you say from a import CLASS

This works because you can import file b without Python executing any of the import statements in file b, and thus you elude any circular imports.

For example:

File a:

class A(object):

     def __init__(self, name):

         self.name = name

CLASS = A("me")

import b

go = B(6)

go.dostuff

File b:

class B(object):

     def __init__(self, number):

         self.number = number

     def dostuff(self):

         from a import CLASS

         print "Hello " + CLASS.name + ", " + str(number) + " is an interesting number."

Voila.

1
  • from a import CLASS doesn't actually skip executing all the code in a.py. This is what really happens: (1) All the code in a.py gets run as a special module "__main__". (2) At import b, the top-level code in b.py gets run (defining class B) and then control returns to "__main__". (3) "__main__" eventually passes control to go.dostuff(). (4) when dostuff() comes to import a, it runs all the code in a.py again, this time as the module "a"; then it imports the CLASS object from the new module "a". So actually, this would work equally well if you used import a anywhere in b.py. Jun 4, 2015 at 7:28
0

We love to use modules in Python and why not, they provide additional functionalities, better coding practice, and always create a proper structure while using. But many times unknowingly, we can run into python circular import problems if we accidentally have another file named as module’s name. As python prefers importing from the local current directory first and then from site-packages, it will create a circular import problem.

Generally, the Python Circular Import problem occurs when you accidentally name your working file the same as the module name and those modules depend on each other. This way the python opens the same file which causes a circular loop and eventually throws an error.

For example, when you name your file as random.py and try to import “from random import randint”, it’ll throw a circular import error (also termed as from partially initialized module).

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