Why doesn't Python allow modules to have a __call__? (Beyond the obvious that it wouldn't be easy to import directly.) Specifically, why doesn't using a(b) syntax find the __call__ attribute like it does for functions, classes, and objects? (Is lookup just incompatibly different for modules?)

>>> print open("mod_call.py").read()
def __call__():
    return 42

>>> import mod_call
>>> mod_call()
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
TypeError: 'module' object is not callable
>>> mod_call.__call__()
  • Migrating a decorator from a package into its own sub-module. @example(...) was by far still the most common use-case, but @example.special_case(...) was a new use. I didn't want to implement it with an example class and static methods, since that was a poor fit. Not sure a callable module is a better fit, but I started investigating it and then wanted to know why it didn't work. – Roger Pate Jun 30 '09 at 5:15
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    I had also thought it could simplify some modules such as datetime and decimal, by making the module.__call__ be datetime.datetime or decimal.Decimal respectively. However, then type(decimal('1')) wouldn't be the same as decimal, and possible other issues. shrug It was an idea. – Roger Pate Jun 30 '09 at 5:18
  • "Beyond the obvious that it wouldn't be easy to import directly." Why do you think that? – L̲̳o̲̳̳n̲̳̳g̲̳̳p̲̳o̲̳̳k̲̳̳e̲̳̳ Jul 1 '10 at 23:07
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    @Longpoke: It would be cumbersome and inconsistent to import just call. Perhaps I could've phrased that better (when I asked this over a year ago), but it still appears that way to me. – Roger Pate Jul 2 '10 at 1:43
  • Not sure what you mean, like from mymodule import __call__ ? – L̲̳o̲̳̳n̲̳̳g̲̳̳p̲̳o̲̳̳k̲̳̳e̲̳̳ Jul 2 '10 at 2:22

Special methods are only guaranteed to be called implicitly when they are defined on the type, not on the instance. (__call__ is an attribute of the module instance mod_call, not of <type 'module'>.) You can't add methods to built-in types.



Python doesn't allow modules to override or add any magic method, because keeping module objects simple, regular and lightweight is just too advantageous considering how rarely strong use cases appear where you could use magic methods there.

When such use cases do appear, the solution is to make a class instance masquerade as a module. Specifically, code your mod_call.py as follows:

import sys
class mod_call(object):
  def __call__(self):
    return 42
sys.modules[__name__] = mod_call()

Now your code importing and calling mod_call works fine.

  • 10
    Note: instead of the class with a __call__ method, a normal function is also possible – Albert Dec 16 '15 at 9:40
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    Note: This solution does hide other functions (or other items) in the module. This can be solved by adding them to class – Albert Dec 16 '15 at 9:47
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    You may want to subclass types.ModuleType so that it is still considered a module object. (then you really would have a callable module) – Tadhg McDonald-Jensen Apr 28 '16 at 0:41
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    I like @TadhgMcDonald-Jensen 's suggestion of subclassing ModuleType but be aware that if you do, you'll need to override __init__ to pass in the name of the module to super().__init__('moduleName') – Michael Scott Cuthbert Aug 26 '16 at 15:30
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    @MichaelScottCuthbert or equivalently replace sys.modules[__name__] = mod_call() with sys.modules[__name__] = mod_call(__name__) – James_pic Nov 30 '16 at 15:03

As Miles says, you need to define the call on class level. So an alternative to Alex post is to change the class of sys.modules[__name__] to a subclass of the type of sys.modules[__name__] (It should be types.ModuleType).

This has the advantage that the module is callable while keeping all other properties of the module (like accessing functions, variables, ...).

import sys

class MyModule(sys.modules[__name__].__class__):
    def __call__(self):  # module callable
        return 42

sys.modules[__name__].__class__ = MyModule

Note: Tested with python3.6.

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    This only works on Python 3.5 and up, because it relies on a special case added in 3.5 that singles out modules as the only objects implemented in C that can have their __class__ reassigned. – user2357112 Jul 17 '18 at 19:39

Christoph Böddeker's answer seems to be the best way to create a callable module, but as a comment says, it only works in Python 3.5 and up.

The benefit is that you can write your module like normal, and just add the class reassignment at the very end, i.e.

# coolmodule.py
import stuff

var = 33
class MyClass:
def function(x, y):

class CoolModule(types.ModuleType):
    def __call__(self):
        return 42
sys.modules[__name__].__class__ = CoolModule

and everything works, including all expected module attributes like __file__ being defined. (This is because you're actually not changing the module object resulting from the import at all, just "casting" it to a subclass with a __call__ method, which is exactly what we want.)

To get this to work similarly in Python versions below 3.5, you can adapt Alex Martelli's answer to make your new class a subclass of ModuleType, and copy all the module's attributes into your new module instance:

#(all your module stuff here)

class CoolModule(types.ModuleType):
    def __init__(self):
       types.ModuleType.__init__(self, __name__)
        # or super().__init__(__name__) for Python 3
    def __call__(self):
       return 42

sys.modules[__name__] = CoolModule()

Now __file__, __name__ and other module attributes are defined (which aren't present if just following Alex's answer), and your imported module object still "is a" module.

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