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Easy access to items in deep collections.

Project description

Deep Collections

PyPI version Code style: black

deep_collections is a Python library that provides tooling for easy access to deep collections (dicts, lists, deques, etc), while maintaining a great portion of the collection's original API. The class DeepCollection class will automatically subclass the original collection that is provided, and add several quality of life extensions to make using deep collections much more enjoyable.

Got a bundle of JSON from an API? A large Python object from some data science problem? Some very lengthy set of instructions from some infrastructure as code like Ansible or SaltStack? Explore and modify it with ease.

DeepCollection can take virtually any kind of object including all built-in container types (dict, list, set, and tuple), everything in the collections module, and dotty-dicts, and all of these nested in any fashion.

Features

  • Path traversal by supplying an list of path components as a key. This works for getting, setting, and deleting.
  • Accessing nested components by supply only path fragments.
  • Setting paths when parent parts do not exist.
  • Path traversal through dict-like collections by dot chaining for getting
  • Finding all paths to keys or subpaths
  • Finding all values for keys or subpaths, and deduping them.
  • Provide all of the above through a class that is:
    • easily instantiable
    • a native subclass of the type it was instantiated with
    • easily subclassable

Path concept

DeepCollections has a concept of a "path" for nested collections, where a path is a sequence of keys or indices that if followed in order, traverse the deep collection. As a quick example, {'a': ['b', {'c': 'd'}]} could be traversed with the path ['a', 1, 'c'] to find the value 'd'.

DeepCollections natively use paths as well as simple keys and indices. For dc = DeepCollection(foo), items can be retrieved through the familiar dc[path] as normal if path is a simple key or index, or if it is an non-stringlike iterable path (strings are assumed to be literal keys). This is done with a custom __getitem__ method. Similarly, __delitem__ and __setitem__ also support using a path. The same flexibility exists for the familiar methods like .get, which behaves the same as dict.get, but can accept a path as well as a key.

Matching

Path elements are interpretted as patterns to match against keys and indices. By default this is feature is on and uses globbing.

Recursion

"**" recurses any depth to find the match for the next pattern given. For example:

dc = DeepCollection({"a": {"b": {"c": {"d": 5}}}, "d": 4})
dc["a", "**", "d"] == 5

Coupled with another matching style like globbing allows you to do some powerful filtering:

dc = DeepCollection({"a": {"b": {"c": {"xd": {"e": 0}, "yd": {"e": 1}, "zf": {"e": 2}}}}, "e": 3})
dc["a", "**", "?d", "e"] == [0, 1]

This feature is independent of other matching patterns. In other words, you could swap globbing out for another matchin style, but "**" will remain usable unless disabled on it's own. You might want to use regex through your path but pair that with recursion.

Matching numeric keys and indicies

To enable pattern matching (like globbing) to make sense when attempting to match indices and numeric keys, if a path element is a string and appears to use globbing, it will be matched against the stringified index/key. In other words

dc = DeepCollection(["a", "b", "c"])
dc["[0-1]"] == [0, 1]
dc["5"] == DeepCollection([])

dc = DeepCollection({1: 'i', '1': 'j', 'a': 'k'})
dc['*[!1]'] == "k"

This is a compromise to afford pattern matching indices and numeric keys. As with deeper path traversal, since we're matching a pattern, 0 hits is not treated as a KeyError or IndexError, but simply returns no results.

The often relied upon KeyError and IndexError are both saved when pattern matching is not detected.

dc = DeepCollection(["a", "b", "c"])
dc[5]
...
IndexError: list index out of range

DeepCollection({})["a"]
...
KeyError: 'a'

Matching Styles

Deep Collections supports the following matching styles:

  • glob
  • regex (built in soon)
  • none (built in soon)
  • custom (built in soon)

This can be set with many functions by passing e.g. match_with="regex".

As said above, the special use of "**" is independant, and currently always on. Future versions will allow toggling this off as well.

To abandon all matching styles and traverse paths as quickly as possible, use getitem_by_path_strict.

Matching Style: Globbing

Any given path element is matched with fnmatchcase from the Python stdlib. This style is used in the above examples.

DeepCollection object API

DeepCollections are instantiated as a normal class, optionally with a given initial collection as an arguement.

from deep_collections import DeepCollection

dc = DeepCollection()
# or
dc = DeepCollection({"a": {"b": {"c": "d"}}})
# or
dc = DeepCollection(["a", ["b", ["c", "d"]]])

These are the noteworthy methods available on all DCs:

  • __getitem__
  • __delitem__
  • __setitem__
  • get
  • paths_to_value
  • paths_to_key
  • values_for_key
  • deduped_values_for_key

There are also corresponding functions availble that can use any native object that could be deep, but is not a DeepCollection, like a normal nested dict or list. This may be a convenient alternative to ad hoc traverse an object you already have, but it is also faster to use because it doesn't come with the initialization cost of a DeepCollection object. So if speed matters, use a function.

deep_collections function API

All of the useful methods for DeepCollection objects are available as functions that can take a collection as an argument, as well as several other supporting functions, which are made plainly availble.

The core functions are focused on using the same path concept. The available functions and their related DC methods are:

  • getitem_by_path - DeepCollection().__getitem__
  • get_by_path - DeepCollection().get
  • set_by_path - DeepCollection().set_by_path
  • del_by_path - DeepCollection().del_by_path
  • paths_to_value - DeepCollection().paths_to_value
  • paths_to_key - DeepCollection().paths_to_key
  • values_for_key - DeepCollection().values_for_key
  • deduped_values_for_key - DeepCollection().deduped_values_for_key
  • dedupe_items
  • resolve_path
  • matched_keys

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