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Enable explicit relative imports in __main__ module.

Project description

Enabling explicit relative imports in main modules the easy way.

For enabling relative import in __main__ module PEP 366 presents a workaround like:

if __name__ == "__main__" and __package__ is None:
    __package__ = "my_pkg"

from .foo import bar

With rel_imp you can rewrite it as:

import rel_imp; rel_imp.init()
from .foo import bar

Cleaner, faster and less coupled. (you don’t need to specify the package manually)

Note: In order to use rel_imp the module you are coding must be inside a package or a sub-package.

Why using explicit relative imports?

Python 2 still supports implicit relative import and will be deprecated in Python 3, so you will want to migrate those scripts using implicit relative import to explicit relative import. Check more on the PEP 404.

Explicit relative imports makes your code less coupled. As PEP 328 says:

Several use cases were presented, the most important of which is being able to rearrange the structure of large packages without having to edit sub-packages. In addition, a module inside a package can’t easily import itself without relative imports.

Although it is still a matter of taste. (I personally prefer less code to express the same)

Why running sub-modules as main?

Some reasons:

  1. A submodule can become a command line tool if called as main.

  2. You can have unit test or smoke test within the module.

  3. You simply want to run it without any explicit test to see if at least it imports everything it needs.

Installation and Uninstallation

Install via pip

pip install rel_imp

Remove it with:

pip uninstall rel_imp

Install downloading the file

Download the rel_imp.py in one your Python’s search path.

wget https://raw.githubusercontent.com/joaduo/rel_imp/master/rel_imp.py

Example

Imagine you have 2 modules inside a package called “my_pkg”.

That would be:

  • my_pkg/__init__.py

  • my_pkg/math_lib.py

  • my_pkg/test.py

So in test.py we could have

from .math_lib import factorize

def factorize_and_print(number):
    num = factorize(number)
    print num

if __name__ == '__main__':
    #Small smoke test
    factorize_and_print(10)
    factorize_and_print(0)
    factorize_and_print(-10)

If you do python my_pkg/test.py it will throw an exception because of the relative import at the first line.

PEP 366 presents a workaround like:

if __name__ == "__main__" and __package__ is None:
    __package__ = "my_pkg"

from .math_lib import factorize

This will make the code work, but it is not an elegant solution.

So you can use rel_imp to make your code look nicer. Simply do:

import rel_imp; rel_imp.init()
from .math_lib import factorize

It is equivalent as the prior solution but you don’t have to worry about keeping in sync __package__’s value.

Notes on Windows

For some reason when executing - at least in wine - seems python won’t add the current directory to the sys.path list, but the path of the ran script. For example running:

python my_pkg\test.py

Will add the path to my_pkg to sys.path and not the current path to sys.path. This differ from the linux’s behavior - which adds current working dir to sys.path -.

To fix this behavior make sure you have set the correct sys.path or you can add this ugly hack before importing rel_imp.

import sys, os
sys.path.append(os.path.abspath(os.curdir))

How does it work?

It uses the same technique in PEP 366 but __package__’s value is set through dynamic inspection of the stack. To solve the value of __package__ it compares the current __main__’s file with search paths in sys.path - or, optionally, a list of paths given in the settings -.

For example, for a file in /home/user/projects/python/math/my_pkg/test.py given the following paths in sys.path:

[
'/home/user/projects/python/',
'/home/user/projects/python/math/',
'/home/user/projects/python/math/my_pkg/',
]

It will pick the closest path to the __main__’s file that is not the __main__’s file’s directory.

Then the base path use to solve __package__ variable will be /home/user/projects/python/math/

Disabling rel_imp

Relative import shouldn’t have any non-desired side effect, but if for some reason you want to disable it:

  1. Replace the def init() function in the rel_imp.py file (if you downloaded it)

  2. Create an empty rel_imp.py with a dummy init() in a PYTHONPATH with higher priority than the installed one (or optionally uninstall the original one)

rel_imp is really lightweight so you won’t gain any performance difference disabling it.

Feedback or bugs reporting

File an issue through github’s issue tracking system.

You can optionally contact me at joaduo gmail com.

Project details


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rel_imp-0.2.3.tar.gz (7.0 kB view hashes)

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