In many large projects, even in such as Django, and in official Python documentation use list to list the "available from outside" module components in the __init__.py file:

__all__ = [foo, bar, other]

However, the record

__all__ = (foo, bar, other)

it will also work, and in theory it does not give a significant, but an increase in code performance.

Why, then use it to list?

Maybe there is some magic PEP that I don't know about?

  • 3
    Be aware the performance of __all__ is practically insignificant for program runtime. It is only relevant for *-imports to begin with, which are discouraged via PEP 8. Commented Feb 8, 2021 at 9:24
  • 5
    Because lists are idiomatic for sequence-like containers of arbitrary size. You should never be using a tuple for any extremely slight performance increase. Tuples are used for "record-like" data Commented Feb 8, 2021 at 9:26
  • 2
    Also, that is a tuple not a set. Commented Feb 8, 2021 at 9:27
  • 2
    I have adjusted the title to match the question body (init->all, set->tuple). Be aware that a set cannot be used for __all__. Commented Feb 8, 2021 at 9:52
  • 1
    Because once your library gets past a certain size, you end up mangling/constructing __all__ dynamically a lot of the time. Commented Oct 7, 2021 at 5:07

4 Answers 4


There is no binding reason to use either list or tuple. However, list idiomatically represents a sequence of same kind of items but tuple represents a sequence of different kind of items. This is also encoded by type hints, which have some list[str | int] but positional fields inside tuple[str, int, int].

As such, list more accurately represents "arbitrary sequence of names".

PEP 8 repeatedly makes mention of __all__ being a list:

To better support introspection, modules should explicitly declare the names in their public API using the __all__ attribute. Setting __all__ to an empty list indicates that the module has no public API.

"""This is the example module.

This module does stuff.
__all__ = ['a', 'b', 'c']

The language reference says:

The public names defined by a module are determined by checking the module’s namespace for a variable named __all__; if defined, it must be a sequence of strings which are names defined or imported by that module.

A sequence is something that supports iteration (for x in __all__) and access using integer indices (__all__[i]). So it can be a list, or a tuple.


From a practical standpoint, it's somewhat common to add elements to __all__ semi-dynamically. It happens when you want to expose functions defined deep in the package structure at the top level. This is much easier to do with a list.

A couple of examples of modules that do this are numpy and pyserial. I strongly suspect that Django does this too in places, but am not familiar enough with it to know for sure.

The idiom looks something like this in __init__.py:

__all__ = []  # or might have some initial names

from .subpackage import (name1, name2, name3)

__all__.extend(['name1', 'name2', 'name3']) # or append 1-by-1 or +=

I've even seen a slightly sloppier approach, although arguably more maintainable under certain circumstances, that looks like this:

__all__ = []

from .subpackage import *
from .subpackage import __all__ as _all

del _all

Clearly this is greatly simplified by having a mutable __all__. There is no substantial benefit to turning it into a tuple after the fact or "appending" to a tuple using +=.

Another way a mutable __all__ is useful is when your API depends on optional external packages. It's much easier to enable or disable names in a list than a tuple.

Here is an example of a module that enables additional functionality if a library called optional_dependency is installed:

# Core API
__all__ = ['name', 'name2', 'name3']

from .sub1 import name1
from .sub2 import name2, name3

    import optional_dependency
except ImportError:
    # Let it be, it maybe issue a warning
    from .opt_support import name4, name5

    __all__ += ['name4', 'name5']
  • The first example makes no sense to me. It would be equally simple to just write __all__ = ("name1", "name2", "name3"). Why would you need to first create an empty list? For the second example, you could do __all__ = (..., *_all). Same for the third example. I see no advantage in using lists here.
    – iuvbio
    Commented May 25, 2023 at 14:39
  • @iuvbio. You can do it that way too. Lists are more flexible, but flexibility is not always appropriate. Commented May 25, 2023 at 14:49

Just wanted to document a little error I ran into relevant to this post: note that you need a trailing comma to create a single element tuple. So this:

__all__ = ['foo'] # I am list with one element

Is not the same as this:

__all__ = ('foo') # I am a string

Here's an example of this going wrong. In the second case, if you try to import with the wildcard*:

from mymodule import *

You get the confusing error:

AttributeError: module 'mypackage.mymodule' has no attribute 'f'

What is 'f'?!? Well, it is the first element of __all__, which is pointing to the string 'foo', not the single-element tuple ('foo',).

* Using from x import * is maybe what is more to blame here, as opposed to the tuple vs. list choice. But this still seems to be a relatively common pattern in __init__.py files, and makes me lean towards preferring lists.

  • 2
    I'm not sure that I would call this a bug. You can also define tuples without parentheses: __all__ = 'foo', 'bar'. The representation of a tuple uses parentheses, but the parser still sees a single element in parentheses as a single element. Since a string is iterable, that's why you get the attribute error for the first character.
    – ryjack
    Commented Jan 15, 2022 at 9:09
  • @Supra621 Thanks for the input. I guess by "bug" I meant a bug in my code (i.e. not doing what is expected), not a bug in Python. But I will rephrase because that is misleading.
    – Tom
    Commented Jan 15, 2022 at 17:12

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