flake8-import-order

Flake8 and pylama plugin that checks the ordering of import statements.


Keywords
flake8, flake8-extensions, linter-flake8, linter-plugin, pylama, python
License
LGPL-3.0
Install
pip install flake8-import-order==0.18.2

Documentation

flake8-import-order

Build Status

A flake8 and Pylama plugin that checks the ordering of your imports. It does not check anything else about the imports. Merely that they are grouped and ordered correctly.

In general stdlib comes first, then 3rd party, then local packages, and that each group is individually alphabetized, however this depends on the style used. Flake8-Import-Order supports a number of styles and is extensible allowing for custom styles.

This plugin was originally developed to match the style preferences of the cryptography project, with this style remaining the default.

Warnings

This package adds 4 new flake8 warnings

  • I100: Your import statements are in the wrong order.
  • I101: The names in your from import are in the wrong order.
  • I201: Missing newline between import groups.
  • I202: Additional newline in a group of imports.

Styles

The following styles are directly supported,

  • cryptography - see an example
  • google - style described in Google Style Guidelines, see an example
  • smarkets - style as google only with import statements before from X import ... statements, see an example
  • appnexus - style as google only with import statements for packages local to your company or organisation coming after import statements for third-party packages, see an example
  • edited - see an example
  • pycharm - style as smarkets only with case sensitive sorting imported names
  • pep8 - style that only enforces groups without enforcing the order within the groups

You can also add your own style by extending Style class.

Configuration

You will want to set the application-import-names option to a comma separated list of names that should be considered local to your application. These will be used to help categorise your import statements into the correct groups. Note that relative imports are always considered local.

You will want to set the application-package-names option to a comma separated list of names that should be considered local to your company or organisation, but which are obtained using some sort of package manager like Pip, Apt, or Yum. Typically, code representing the values listed in this option is located in a different repository than the code being developed. This option is only accepted in the supported appnexus or edited styles or in any style that accepts application package names.

The application-import-names and application-package-names can contain namespaced packages or even exact nested module names. (This is possible with 0.16 onwards).

import-order-style controls what style the plugin follows (cryptography is the default).

Limitations

Currently these checks are limited to module scope imports only. Conditional imports in module scope will also be ignored.

Classification of an imported module is achieved by checking the module against a stdlib list and then if there is no match against the application-import-names list and application-package-names if the style accepts application-package names. Only if none of these lists contain the imported module will it be classified as third party.

These checks only consider an import against its previous import, rather than considering all the imports together. This means that I100 errors are only raised for the latter of adjacent imports out of order. For example,

import X.B
import X  # I100
import X.A

only import X raises an I100 error, yet import X.A is also out of order compared with the import X.B.

Imported modules are classified as stdlib if the module is in a vendored list of stdlib modules. This list is based on the latest release of Python and hence the results can be misleading. This list is also the same for all Python versions because otherwise it would be impossible to write programs that work under both Python 2 and 3 and pass the import order check.

The I202 check will consider any blank line between imports to count, even if the line is not contextually related to the imports. For example,

import logging
try:
    from logging import NullHandler
except ImportError:
    class NullHandler(logging.Handler):
        """Shim for version of Python < 2.7."""

        def emit(self, record):
            pass
import sys  # I202 due to the blank line before the 'def emit'

will trigger a I202 error despite the blank line not being contextually related.

Extending styles

You can add your own style by extending flake8_import_order.styles.Style class. Here's an example:

from flake8_import_order.styles import Cryptography


class ReversedCryptography(Cryptography):
    # Note that Cryptography is a subclass of Style.

    @staticmethod
    def sorted_names(names):
        return reversed(Cryptography.sorted_names(names))

By default there are five import groupings or sections; future, stdlib, third party, application, and relative imports. A style can choose to accept another grouping, application-package, by setting the Style class variable accepts_application_package_names to True, e.g.

class PackageNameCryptography(Cryptography):
    accepts_application_package_names = True

To make flake8-import-order able to discover your extended style, you need to register it as flake8_import_order.styles using setuptools' entry points mechanism:

# setup.py of your style package
setup(
    name='flake8-import-order-reversed-cryptography',
    ...,
    entry_points={
        'flake8_import_order.styles': [
            'reversed = reversedcryptography:ReversedCryptography',
            # 'reversed' is a style name.  You can pass it to
            # --import-order-style option
            # 'reversedcryptography:ReversedCryptography' is an import path
            # of your extended style class.
        ]
    }
)