2

My tree looks like

parent/
|--__init__.py
\--a.py

And the content of __init__.py is

import parent.a as _a
a = 'some string'

When I open up a Python at the top level and import parent.a, I would get the string instead of module. For example import parent.a as the_a; type(the_a) == str.

So I think OK probably import is importing the name from the parent namespace, and it's now overridden. So I figure I can go import parent._a as a_module. But this doesn't work as there is "No module named _a".

This is very confusing. A function can override a module with the same name, but a module cannot take on a new name and "reexport".

Is there any explanation I'm not aware of? Or is this documented feature?

Even more confusing, if I remove the import statement in __init__.py, everything is back normal again (import parent.a; type(parent.a) is module). But why is this different? The a name in parent namespace is still a string.

(I ran on Python 3.5.3 and 2.7.13 with the same results)

  • This is just a hunch, but try import parent.a as a_ (put the underscore not in the beginning). See the docs here – RunOrVeith Jan 8 at 17:38
  • @RunOrVeith same problem, unfortunately.. – Hot.PxL Jan 8 at 19:09
1

In an import statement, the module reference never uses attribute lookups. The statements

import parent.a  # as ...

and

from parent.a import ...  # as ...

will always look for parent.a in the sys.modules namespace before trying to further initiate module loading from disk.

However, for from ... import name statements, Python does look at attributes of the resolved module to find name, before looking for submodules.

Module globals and the attributes on a module object are the same thing. On import, Python adds submodules as attributes (so globals) to the parent module, but you are free to overwrite those attributes, as you did in your code. However, when you then use an import with the parent.a module path, attributes do not come into play.

From the Submodules section of the Python import system reference documentation:

When a submodule is loaded using any mechanism [...] a binding is placed in the parent module’s namespace to the submodule object. For example, if package spam has a submodule foo, after importing spam.foo, spam will have an attribute foo which is bound to the submodule.

Your import parent.a as _a statement adds two names to the parent namespace; first a is added pointing to the parent.a submodule, and then _a is also set, pointing to the same object.

Your next line replaces the name a with a binding to the 'some string' object.

The Searching section of the same details how Python goes about finding a module when you import:

To begin the search, Python needs the fully qualified name of the module [...] being imported.

[...]

This name will be used in various phases of the import search, and it may be the dotted path to a submodule, e.g. foo.bar.baz. In this case, Python first tries to import foo, then foo.bar, and finally foo.bar.baz. If any of the intermediate imports fail, a ModuleNotFoundError is raised.

then further on

The first place checked during import search is sys.modules. This mapping serves as a cache of all modules that have been previously imported, including the intermediate paths. So if foo.bar.baz was previously imported, sys.modules will contain entries for foo, foo.bar, and foo.bar.baz. Each key will have as its value the corresponding module object.

During import, the module name is looked up in sys.modules and if present, the associated value is the module satisfying the import, and the process completes. [...] If the module name is missing, Python will continue searching for the module.

So when trying to import parent.a all that matters is that sys.modules['parent.a'] exists. sys.modules['parent'].a is not consulted.

Only from module import ... would ever look at attributes. From the import statement documentation:

The from form uses a slightly more complex process:

  1. find the module specified in the from clause, loading and initializing it if necessary;
  2. for each of the identifiers specified in the import clauses:
    1. check if the imported module has an attribute by that name
    2. if not, attempt to import a submodule with that name and then check the imported module again for that attribute
    3. [...]

So from parent import _a would work, as would from parent import a, and you'd get the parent.a submodule and the 'some string' object, respectively.

Note that sys.modules is writable, if you must have import parent._a work, you can always just alter sys.modules directly:

sys.modules['parent._a'] = sys.modules['parent.a']  # make parent._a an alias for parent.a
import parent._a  # works now
  • According to your answer, if I do import parent.a from outside, it should find the module a but not the string. But then if I do import parent.a as the_a; type(the_a) it still shows me the string – Hot.PxL Jan 8 at 19:05
  • @Hot.PxL: ack, indeed. Python does use attribute traversal there, contrary to the specs. I'm out of time for now, will revisit this later. – Martijn Pieters Jan 8 at 19:19

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.