blog/content/posts/2024-06-24-union-find/index.md

---
title: "Union Find"
date: 2024-06-24T21:07:49+01:00
draft: false # I don't care for draft mode, git has branches for that
description: "My favorite data structure"
tags:
  - algorithms
  - data structures
  - python
categories:
  - programming
series:
  - Cool algorithms
favorite: false
disable_feed: false
---

To kickoff the [series]({{< ref "/series/cool-algorithms/">}}) of posts about
algorithms and data structures I find interesting, I will be talking about my
favorite one: the [_Disjoint Set_][wiki]. Also known as the _Union-Find_ data
structure, so named because of its two main operations: `ds.union(lhs, rhs)` and
`ds.find(elem)`.

[wiki]: https://en.wikipedia.org/wiki/Disjoint-set_data_structure

<!--more-->

## What does it do?

The _Union-Find_ data structure allows one to store a collection of sets of
elements, with operations for adding new sets, merging two sets into one, and
finding the representative member of a set. Not only does it do all that, but it
does it in almost constant (amortized) time!

Here is a small motivating example for using the _Disjoint Set_ data structure:

```python
def connected_components(graph: Graph) -> list[set[Node]]:
    # Initialize the disjoint set so that each node is in its own set
    ds: DisjointSet[Node] = DisjointSet(graph.nodes)
    # Each edge is a connection, merge both sides into the same set
    for (start, dest) in graph.edges:
        ds.union(start, dest)
    # Connected components share the same (arbitrary) root
    components: dict[Node, set[Node]] = defaultdict(set)
    for n in graph.nodes:
        components[ds.find(n)].add(n)
    # Return a list of disjoint sets corresponding to each connected component
    return list(components.values())
```
posts: add union-find 2024-06-25 00:01:48 +02:00			`---`
			`title: "Union Find"`
			`date: 2024-06-24T21:07:49+01:00`
			`draft: false # I don't care for draft mode, git has branches for that`
			`description: "My favorite data structure"`
			`tags:`
			`- algorithms`
			`- data structures`
			`- python`
			`categories:`
			`- programming`
			`series:`
			`- Cool algorithms`
			`favorite: false`
			`disable_feed: false`
			`---`

			`To kickoff the [series]({{< ref "/series/cool-algorithms/">}}) of posts about`
			`algorithms and data structures I find interesting, I will be talking about my`
			`favorite one: the [_Disjoint Set_][wiki]. Also known as the _Union-Find_ data`
			structure, so named because of its two main operations: `ds.union(lhs, rhs)` and
			`ds.find(elem)`.

			`[wiki]: https://en.wikipedia.org/wiki/Disjoint-set_data_structure`

			`<!--more-->`
posts: union-find: add presentation 2024-06-25 00:02:08 +02:00
			`## What does it do?`

			`The _Union-Find_ data structure allows one to store a collection of sets of`
			`elements, with operations for adding new sets, merging two sets into one, and`
			`finding the representative member of a set. Not only does it do all that, but it`
			`does it in almost constant (amortized) time!`

			`Here is a small motivating example for using the _Disjoint Set_ data structure:`

			```python
			`def connected_components(graph: Graph) -> list[set[Node]]:`
			`# Initialize the disjoint set so that each node is in its own set`
			`ds: DisjointSet[Node] = DisjointSet(graph.nodes)`
			`# Each edge is a connection, merge both sides into the same set`
			`for (start, dest) in graph.edges:`
			`ds.union(start, dest)`
			`# Connected components share the same (arbitrary) root`
			`components: dict[Node, set[Node]] = defaultdict(set)`
			`for n in graph.nodes:`
			`components[ds.find(n)].add(n)`
			`# Return a list of disjoint sets corresponding to each connected component`
			`return list(components.values())`
			```