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# JavaScript Algorithms and Data Structures
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[![Build Status ](https://travis-ci.org/trekhleb/javascript-algorithms.svg?branch=master )](https://travis-ci.org/trekhleb/javascript-algorithms)
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[![codecov ](https://codecov.io/gh/trekhleb/javascript-algorithms/branch/master/graph/badge.svg )](https://codecov.io/gh/trekhleb/javascript-algorithms)
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This repository contains JavaScript based examples of many
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popular algorithms and data structures.
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Each algorithm and data structure has its own separate README
with related explanations and links for further reading (including ones
to YouTube videos).
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_Read this in other languages:_
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[_简体中文_ ](README.zh-CN.md ),
[_繁體中文_ ](README.zh-TW.md ),
[_한국어_ ](README.ko-KR.md ),
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[_Polski_ ](README.pl-PL.md ),
[_Français_ ](README.fr-FR.md )
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> We’ re writing a book that will clearly explain, in detail, the main algorithms.
If you’ d like to be notified when the “JavaScript Algorithms” book
launches, [click here ](https://upscri.be/402324/ ).
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## Data Structures
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A data structure is a particular way of organizing and storing data in a computer so that it can
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be accessed and modified efficiently. More precisely, a data structure is a collection of data
values, the relationships among them, and the functions or operations that can be applied to
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the data.
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`B` - Beginner, `A` - Advanced
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* `B` [Linked List ](src/data-structures/linked-list )
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* `B` [Doubly Linked List ](src/data-structures/doubly-linked-list )
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* `B` [Queue ](src/data-structures/queue )
* `B` [Stack ](src/data-structures/stack )
* `B` [Hash Table ](src/data-structures/hash-table )
* `B` [Heap ](src/data-structures/heap )
* `B` [Priority Queue ](src/data-structures/priority-queue )
* `A` [Trie ](src/data-structures/trie )
* `A` [Tree ](src/data-structures/tree )
* `A` [Binary Search Tree ](src/data-structures/tree/binary-search-tree )
* `A` [AVL Tree ](src/data-structures/tree/avl-tree )
* `A` [Red-Black Tree ](src/data-structures/tree/red-black-tree )
* `A` [Segment Tree ](src/data-structures/tree/segment-tree ) - with min/max/sum range queries examples
* `A` [Fenwick Tree ](src/data-structures/tree/fenwick-tree ) (Binary Indexed Tree)
* `A` [Graph ](src/data-structures/graph ) (both directed and undirected)
* `A` [Disjoint Set ](src/data-structures/disjoint-set )
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* `A` [Bloom Filter ](src/data-structures/bloom-filter )
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## Algorithms
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An algorithm is an unambiguous specification of how to solve a class of problems. It is
a set of rules that precisely define a sequence of operations.
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`B` - Beginner, `A` - Advanced
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### Algorithms by Topic
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* **Math**
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* `B` [Bit Manipulation ](src/algorithms/math/bits ) - set/get/update/clear bits, multiplication/division by two, make negative etc.
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* `B` [Factorial ](src/algorithms/math/factorial )
* `B` [Fibonacci Number ](src/algorithms/math/fibonacci )
* `B` [Primality Test ](src/algorithms/math/primality-test ) (trial division method)
* `B` [Euclidean Algorithm ](src/algorithms/math/euclidean-algorithm ) - calculate the Greatest Common Divisor (GCD)
* `B` [Least Common Multiple ](src/algorithms/math/least-common-multiple ) (LCM)
* `B` [Sieve of Eratosthenes ](src/algorithms/math/sieve-of-eratosthenes ) - finding all prime numbers up to any given limit
* `B` [Is Power of Two ](src/algorithms/math/is-power-of-two ) - check if the number is power of two (naive and bitwise algorithms)
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* `B` [Pascal's Triangle ](src/algorithms/math/pascal-triangle )
* `A` [Integer Partition ](src/algorithms/math/integer-partition )
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* `A` [Liu Hui π Algorithm ](src/algorithms/math/liu-hui ) - approximate π calculations based on N-gons
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* **Sets**
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* `B` [Cartesian Product ](src/algorithms/sets/cartesian-product ) - product of multiple sets
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* `B` [Fisher– Yates Shuffle ](src/algorithms/sets/fisher-yates ) - random permutation of a finite sequence
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* `A` [Power Set ](src/algorithms/sets/power-set ) - all subsets of a set
* `A` [Permutations ](src/algorithms/sets/permutations ) (with and without repetitions)
* `A` [Combinations ](src/algorithms/sets/combinations ) (with and without repetitions)
* `A` [Longest Common Subsequence ](src/algorithms/sets/longest-common-subsequence ) (LCS)
* `A` [Longest Increasing Subsequence ](src/algorithms/sets/longest-increasing-subsequence )
* `A` [Shortest Common Supersequence ](src/algorithms/sets/shortest-common-supersequence ) (SCS)
* `A` [Knapsack Problem ](src/algorithms/sets/knapsack-problem ) - "0/1" and "Unbound" ones
* `A` [Maximum Subarray ](src/algorithms/sets/maximum-subarray ) - "Brute Force" and "Dynamic Programming" (Kadane's) versions
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* `A` [Combination Sum ](src/algorithms/sets/combination-sum ) - find all combinations that form specific sum
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* **Strings**
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* `B` [Hamming Distance ](src/algorithms/string/hamming-distance ) - number of positions at which the symbols are different
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* `A` [Levenshtein Distance ](src/algorithms/string/levenshtein-distance ) - minimum edit distance between two sequences
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* `A` [Knuth– Morris– Pratt Algorithm ](src/algorithms/string/knuth-morris-pratt ) (KMP Algorithm) - substring search (pattern matching)
* `A` [Z Algorithm ](src/algorithms/string/z-algorithm ) - substring search (pattern matching)
* `A` [Rabin Karp Algorithm ](src/algorithms/string/rabin-karp ) - substring search
* `A` [Longest Common Substring ](src/algorithms/string/longest-common-substring )
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* `A` [Regular Expression Matching ](src/algorithms/string/regular-expression-matching )
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* **Searches**
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* `B` [Linear Search ](src/algorithms/search/linear-search )
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* `B` [Jump Search ](src/algorithms/search/jump-search ) (or Block Search) - search in sorted array
* `B` [Binary Search ](src/algorithms/search/binary-search ) - search in sorted array
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* `B` [Interpolation Search ](src/algorithms/search/interpolation-search ) - search in uniformly distributed sorted array
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* **Sorting**
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* `B` [Bubble Sort ](src/algorithms/sorting/bubble-sort )
* `B` [Selection Sort ](src/algorithms/sorting/selection-sort )
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* `B` [Insertion Sort ](src/algorithms/sorting/insertion-sort )
* `B` [Heap Sort ](src/algorithms/sorting/heap-sort )
* `B` [Merge Sort ](src/algorithms/sorting/merge-sort )
* `B` [Quicksort ](src/algorithms/sorting/quick-sort ) - in-place and non-in-place implementations
* `B` [Shellsort ](src/algorithms/sorting/shell-sort )
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* `B` [Counting Sort ](src/algorithms/sorting/counting-sort )
* `B` [Radix Sort ](src/algorithms/sorting/radix-sort )
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* **Trees**
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* `B` [Depth-First Search ](src/algorithms/tree/depth-first-search ) (DFS)
* `B` [Breadth-First Search ](src/algorithms/tree/breadth-first-search ) (BFS)
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* **Graphs**
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* `B` [Depth-First Search ](src/algorithms/graph/depth-first-search ) (DFS)
* `B` [Breadth-First Search ](src/algorithms/graph/breadth-first-search ) (BFS)
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* `B` [Kruskal’ s Algorithm ](src/algorithms/graph/kruskal ) - finding Minimum Spanning Tree (MST) for weighted undirected graph
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* `A` [Dijkstra Algorithm ](src/algorithms/graph/dijkstra ) - finding shortest paths to all graph vertices from single vertex
* `A` [Bellman-Ford Algorithm ](src/algorithms/graph/bellman-ford ) - finding shortest paths to all graph vertices from single vertex
* `A` [Floyd-Warshall Algorithm ](src/algorithms/graph/floyd-warshall ) - find shortest paths between all pairs of vertices
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* `A` [Detect Cycle ](src/algorithms/graph/detect-cycle ) - for both directed and undirected graphs (DFS and Disjoint Set based versions)
* `A` [Prim’ s Algorithm ](src/algorithms/graph/prim ) - finding Minimum Spanning Tree (MST) for weighted undirected graph
* `A` [Topological Sorting ](src/algorithms/graph/topological-sorting ) - DFS method
* `A` [Articulation Points ](src/algorithms/graph/articulation-points ) - Tarjan's algorithm (DFS based)
* `A` [Bridges ](src/algorithms/graph/bridges ) - DFS based algorithm
* `A` [Eulerian Path and Eulerian Circuit ](src/algorithms/graph/eulerian-path ) - Fleury's algorithm - Visit every edge exactly once
* `A` [Hamiltonian Cycle ](src/algorithms/graph/hamiltonian-cycle ) - Visit every vertex exactly once
* `A` [Strongly Connected Components ](src/algorithms/graph/strongly-connected-components ) - Kosaraju's algorithm
* `A` [Travelling Salesman Problem ](src/algorithms/graph/travelling-salesman ) - shortest possible route that visits each city and returns to the origin city
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* **Uncategorized**
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* `B` [Tower of Hanoi ](src/algorithms/uncategorized/hanoi-tower )
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* `B` [Square Matrix Rotation ](src/algorithms/uncategorized/square-matrix-rotation ) - in-place algorithm
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* `B` [Jump Game ](src/algorithms/uncategorized/jump-game ) - backtracking, dynamic programming (top-down + bottom-up) and greedy examples
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* `B` [Unique Paths ](src/algorithms/uncategorized/unique-paths ) - backtracking, dynamic programming and Pascal's Triangle based examples
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* `A` [N-Queens Problem ](src/algorithms/uncategorized/n-queens )
* `A` [Knight's Tour ](src/algorithms/uncategorized/knight-tour )
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### Algorithms by Paradigm
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An algorithmic paradigm is a generic method or approach which underlies the design of a class
of algorithms. It is an abstraction higher than the notion of an algorithm, just as an
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algorithm is an abstraction higher than a computer program.
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* **Brute Force** - look at all the possibilities and selects the best solution
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* `B` [Linear Search ](src/algorithms/search/linear-search )
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* `A` [Maximum Subarray ](src/algorithms/sets/maximum-subarray )
* `A` [Travelling Salesman Problem ](src/algorithms/graph/travelling-salesman ) - shortest possible route that visits each city and returns to the origin city
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* **Greedy** - choose the best option at the current time, without any consideration for the future
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* `B` [Jump Game ](src/algorithms/uncategorized/jump-game )
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* `A` [Unbound Knapsack Problem ](src/algorithms/sets/knapsack-problem )
* `A` [Dijkstra Algorithm ](src/algorithms/graph/dijkstra ) - finding shortest path to all graph vertices
* `A` [Prim’ s Algorithm ](src/algorithms/graph/prim ) - finding Minimum Spanning Tree (MST) for weighted undirected graph
* `A` [Kruskal’ s Algorithm ](src/algorithms/graph/kruskal ) - finding Minimum Spanning Tree (MST) for weighted undirected graph
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* **Divide and Conquer** - divide the problem into smaller parts and then solve those parts
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* `B` [Binary Search ](src/algorithms/search/binary-search )
* `B` [Tower of Hanoi ](src/algorithms/uncategorized/hanoi-tower )
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* `B` [Pascal's Triangle ](src/algorithms/math/pascal-triangle )
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* `B` [Euclidean Algorithm ](src/algorithms/math/euclidean-algorithm ) - calculate the Greatest Common Divisor (GCD)
* `B` [Merge Sort ](src/algorithms/sorting/merge-sort )
* `B` [Quicksort ](src/algorithms/sorting/quick-sort )
* `B` [Tree Depth-First Search ](src/algorithms/tree/depth-first-search ) (DFS)
* `B` [Graph Depth-First Search ](src/algorithms/graph/depth-first-search ) (DFS)
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* `B` [Jump Game ](src/algorithms/uncategorized/jump-game )
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* `A` [Permutations ](src/algorithms/sets/permutations ) (with and without repetitions)
* `A` [Combinations ](src/algorithms/sets/combinations ) (with and without repetitions)
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* **Dynamic Programming** - build up a solution using previously found sub-solutions
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* `B` [Fibonacci Number ](src/algorithms/math/fibonacci )
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* `B` [Jump Game ](src/algorithms/uncategorized/jump-game )
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* `B` [Unique Paths ](src/algorithms/uncategorized/unique-paths )
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* `A` [Levenshtein Distance ](src/algorithms/string/levenshtein-distance ) - minimum edit distance between two sequences
* `A` [Longest Common Subsequence ](src/algorithms/sets/longest-common-subsequence ) (LCS)
* `A` [Longest Common Substring ](src/algorithms/string/longest-common-substring )
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* `A` [Longest Increasing Subsequence ](src/algorithms/sets/longest-increasing-subsequence )
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* `A` [Shortest Common Supersequence ](src/algorithms/sets/shortest-common-supersequence )
* `A` [0/1 Knapsack Problem ](src/algorithms/sets/knapsack-problem )
* `A` [Integer Partition ](src/algorithms/math/integer-partition )
* `A` [Maximum Subarray ](src/algorithms/sets/maximum-subarray )
* `A` [Bellman-Ford Algorithm ](src/algorithms/graph/bellman-ford ) - finding shortest path to all graph vertices
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* `A` [Floyd-Warshall Algorithm ](src/algorithms/graph/floyd-warshall ) - find shortest paths between all pairs of vertices
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* `A` [Regular Expression Matching ](src/algorithms/string/regular-expression-matching )
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* **Backtracking** - similarly to brute force, try to generate all possible solutions, but each time you generate next solution you test
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if it satisfies all conditions, and only then continue generating subsequent solutions. Otherwise, backtrack, and go on a
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different path of finding a solution. Normally the DFS traversal of state-space is being used.
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* `B` [Jump Game ](src/algorithms/uncategorized/jump-game )
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* `B` [Unique Paths ](src/algorithms/uncategorized/unique-paths )
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* `A` [Hamiltonian Cycle ](src/algorithms/graph/hamiltonian-cycle ) - Visit every vertex exactly once
* `A` [N-Queens Problem ](src/algorithms/uncategorized/n-queens )
* `A` [Knight's Tour ](src/algorithms/uncategorized/knight-tour )
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* `A` [Combination Sum ](src/algorithms/sets/combination-sum ) - find all combinations that form specific sum
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* **Branch & Bound** - remember the lowest-cost solution found at each stage of the backtracking
search, and use the cost of the lowest-cost solution found so far as a lower bound on the cost of
a least-cost solution to the problem, in order to discard partial solutions with costs larger than the
lowest-cost solution found so far. Normally BFS traversal in combination with DFS traversal of state-space
tree is being used.
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## How to use this repository
**Install all dependencies**
```
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npm install
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```
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**Run ESLint**
You may want to run it to check code quality.
```
npm run lint
```
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**Run all tests**
```
npm test
```
**Run tests by name**
```
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npm test -- 'LinkedList'
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```
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**Playground**
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You may play with data-structures and algorithms in `./src/playground/playground.js` file and write
tests for it in `./src/playground/__test__/playground.test.js` .
Then just simply run the following command to test if your playground code works as expected:
```
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npm test -- 'playground'
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```
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## Useful Information
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### References
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[▶ Data Structures and Algorithms on YouTube ](https://www.youtube.com/playlist?list=PLLXdhg_r2hKA7DPDsunoDZ-Z769jWn4R8 )
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### Big O Notation
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Order of growth of algorithms specified in Big O notation.
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![Big O graphs ](./assets/big-o-graph.png )
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Source: [Big O Cheat Sheet ](http://bigocheatsheet.com/ ).
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Below is the list of some of the most used Big O notations and their performance comparisons against different sizes of the input data.
| Big O Notation | Computations for 10 elements | Computations for 100 elements | Computations for 1000 elements |
| -------------- | ---------------------------- | ----------------------------- | ------------------------------- |
| **O(1)** | 1 | 1 | 1 |
| **O(log N)** | 3 | 6 | 9 |
| **O(N)** | 10 | 100 | 1000 |
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| **O(N log N)** | 30 | 600 | 9000 |
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| **O(N^2)** | 100 | 10000 | 1000000 |
| **O(2^N)** | 1024 | 1.26e+29 | 1.07e+301 |
| **O(N!)** | 3628800 | 9.3e+157 | 4.02e+2567 |
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### Data Structure Operations Complexity
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| Data Structure | Access | Search | Insertion | Deletion | Comments |
| ----------------------- | :-------: | :-------: | :-------: | :-------: | :-------- |
| **Array** | 1 | n | n | n | |
| **Stack** | n | n | 1 | 1 | |
| **Queue** | n | n | 1 | 1 | |
| **Linked List** | n | n | 1 | 1 | |
| **Hash Table** | - | n | n | n | In case of perfect hash function costs would be O(1) |
| **Binary Search Tree** | n | n | n | n | In case of balanced tree costs would be O(log(n)) |
| **B-Tree** | log(n) | log(n) | log(n) | log(n) | |
| **Red-Black Tree** | log(n) | log(n) | log(n) | log(n) | |
| **AVL Tree** | log(n) | log(n) | log(n) | log(n) | |
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| **Bloom Filter** | - | 1 | 1 | - | False positives are possible while searching |
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### Array Sorting Algorithms Complexity
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| Name | Best | Average | Worst | Memory | Stable | Comments |
| --------------------- | :-------------: | :-----------------: | :-----------------: | :-------: | :-------: | :-------- |
| **Bubble sort** | n | n< sup > 2</ sup > | n< sup > 2</ sup > | 1 | Yes | |
| **Insertion sort** | n | n< sup > 2</ sup > | n< sup > 2</ sup > | 1 | Yes | |
| **Selection sort** | n< sup > 2</ sup > | n< sup > 2</ sup > | n< sup > 2</ sup > | 1 | No | |
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| **Heap sort** | n log(n) | n log(n) | n log(n) | 1 | No | |
| **Merge sort** | n log(n) | n log(n) | n log(n) | n | Yes | |
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| **Quick sort** | n log(n) | n log(n) | n< sup > 2</ sup > | log(n) | No | Quicksort is usually done in-place with O(log(n)) stack space |
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| **Shell sort** | n log(n) | depends on gap sequence | n (log(n))< sup > 2</ sup > | 1 | No | |
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| **Counting sort** | n + r | n + r | n + r | n + r | Yes | r - biggest number in array |
| **Radix sort** | n * k | n * k | n * k | n + k | Yes | k - length of longest key |