Metadata-Version: 2.4
Name: ordered-set
Version: 4.1.0
Summary: An OrderedSet is a custom MutableSet that remembers its order, so that every
Author-email: Elia Robyn Lake <gh@arborelia.net>
Requires-Python: >=3.7
Description-Content-Type: text/markdown
Classifier: Development Status :: 5 - Production/Stable
Classifier: Intended Audience :: Developers
Classifier: License :: OSI Approved :: MIT License
Classifier: Programming Language :: Python
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3.7
Classifier: Programming Language :: Python :: 3.8
Classifier: Programming Language :: Python :: 3.9
Classifier: Programming Language :: Python :: 3.10
Classifier: Programming Language :: Python :: Implementation :: CPython
Classifier: Programming Language :: Python :: Implementation :: PyPy
License-File: MIT-LICENSE
Requires-Dist: pytest ; extra == "dev"
Requires-Dist: black ; extra == "dev"
Requires-Dist: mypy ; extra == "dev"
Project-URL: Home, https://github.com/rspeer/ordered-set
Provides-Extra: dev

[![Pypi](https://img.shields.io/pypi/v/ordered-set.svg)](https://pypi.python.org/pypi/ordered-set)

An OrderedSet is a mutable data structure that is a hybrid of a list and a set.
It remembers the order of its entries, and every entry has an index number that
can be looked up.

## Installation

`ordered_set` is available on PyPI and packaged as a wheel. You can list it
as a dependency of your project, in whatever form that takes.

To install it into your current Python environment:

    pip install ordered-set

To install the code for development, after checking out the repository:

    pip install flit
    flit install

## Usage examples

An OrderedSet is created and used like a set:

    >>> from ordered_set import OrderedSet

    >>> letters = OrderedSet('abracadabra')

    >>> letters
    OrderedSet(['a', 'b', 'r', 'c', 'd'])

    >>> 'r' in letters
    True

It is efficient to find the index of an entry in an OrderedSet, or find an
entry by its index. To help with this use case, the `.add()` method returns
the index of the added item, whether it was already in the set or not.

    >>> letters.index('r')
    2

    >>> letters[2]
    'r'

    >>> letters.add('r')
    2

    >>> letters.add('x')
    5

OrderedSets implement the union (`|`), intersection (`&`), and difference (`-`)
operators like sets do.

    >>> letters |= OrderedSet('shazam')

    >>> letters
    OrderedSet(['a', 'b', 'r', 'c', 'd', 'x', 's', 'h', 'z', 'm'])

    >>> letters & set('aeiou')
    OrderedSet(['a'])

    >>> letters -= 'abcd'

    >>> letters
    OrderedSet(['r', 'x', 's', 'h', 'z', 'm'])

The `__getitem__()` and `index()` methods have been extended to accept any
iterable except a string, returning a list, to perform NumPy-like "fancy
indexing".

    >>> letters = OrderedSet('abracadabra')

    >>> letters[[0, 2, 3]]
    ['a', 'r', 'c']

    >>> letters.index(['a', 'r', 'c'])
    [0, 2, 3]

OrderedSet implements `__getstate__` and `__setstate__` so it can be pickled,
and implements the abstract base classes `collections.MutableSet` and
`collections.Sequence`.

OrderedSet can be used as a generic collection type, similar to the collections
in the `typing` module like List, Dict, and Set. For example, you can annotate
a variable as having the type `OrderedSet[str]` or `OrderedSet[Tuple[int,
str]]`.


## OrderedSet in data science applications

An OrderedSet can be used as a bi-directional mapping between a sparse
vocabulary and dense index numbers. As of version 3.1, it accepts NumPy arrays
of index numbers as well as lists.

This combination of features makes OrderedSet a simple implementation of many
of the things that `pandas.Index` is used for, and many of its operations are
faster than the equivalent pandas operations.

For further compatibility with pandas.Index, `get_loc` (the pandas method for
looking up a single index) and `get_indexer` (the pandas method for fancy
indexing in reverse) are both aliases for `index` (which handles both cases
in OrderedSet).


## Authors

OrderedSet was implemented by Elia Robyn Lake (maiden name: Robyn Speer).
Jon Crall contributed changes and tests to make it fit the Python set API.
Roman Inflianskas added the original type annotations.


## Comparisons

The original implementation of OrderedSet was a [recipe posted to ActiveState
Recipes][recipe] by Raymond Hettiger, released under the MIT license.

[recipe]: https://code.activestate.com/recipes/576694-orderedset/

Hettiger's implementation kept its content in a doubly-linked list referenced by a
dict. As a result, looking up an item by its index was an O(N) operation, while
deletion was O(1).

This version makes different trade-offs for the sake of efficient lookups. Its
content is a standard Python list instead of a doubly-linked list. This
provides O(1) lookups by index at the expense of O(N) deletion, as well as
slightly faster iteration.

In Python 3.6 and later, the built-in `dict` type is inherently ordered. If you
ignore the dictionary values, that also gives you a simple ordered set, with
fast O(1) insertion, deletion, iteration and membership testing. However, `dict`
does not provide the list-like random access features of OrderedSet. You
would have to convert it to a list in O(N) to look up the index of an entry or
look up an entry by its index.

