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red-black-tree-typed

RedBlackTree. Javascript & Typescript Data Structure.

  • 1.51.9
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Weekly downloads
805
increased by73.87%
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NPM GitHub top language npm eslint npm bundle size npm bundle size npm

What

Brief

This is a standalone Red Black Tree data structure from the data-structure-typed collection. If you wish to access more data structures or advanced features, you can transition to directly installing the complete data-structure-typed package

How

install

npm

npm i red-black-tree-typed --save

yarn

yarn add red-black-tree-typed

methods

snippet

TS
import {RedBlackTree} from 'data-structure-typed';
// /* or if you prefer */ import {RedBlackTree} from 'red-black-tree-typed';

const rbTree = new RedBlackTree<number>();

const idsOrVals = [11, 3, 15, 1, 8, 13, 16, 2, 6, 9, 12, 14, 4, 7, 10, 5];
rbTree.addMany(idsOrVals);

const node6 = rbTree.getNode(6);
node6 && rbTree.getHeight(node6)           // 3
node6 && rbTree.getDepth(node6)            // 1
const getNodeById = rbTree.getNodeByKey(10);
getNodeById?.id                             // 10

const getMinNodeByRoot = rbTree.getLeftMost();
getMinNodeByRoot?.id                        // 1

const node15 = rbTree.getNodeByKey(15);
const getMinNodeBySpecificNode = node15 && rbTree.getLeftMost(node15);
getMinNodeBySpecificNode?.id                // 12

const lesserSum = rbTree.lesserSum(10);
lesserSum                                   // 45

const node11 = rbTree.getNodeByKey(11);
node11?.id                                  // 11

const dfs = rbTree.dfs('in');
dfs[0].id                                   // 1 
rbTree.perfectlyBalance();
const bfs = rbTree.bfs('node');
rbTree.isPerfectlyBalanced() && bfs[0].id  // 8 

rbTree.delete(11, true)[0].deleted?.id     // 11
rbTree.isAVLBalanced();                    // true
node15 && rbTree.getHeight(node15)         // 2
rbTree.delete(1, true)[0].deleted?.id      // 1
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 4

rbTree.delete(4, true)[0].deleted?.id      // 4
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 4

rbTree.delete(10, true)[0].deleted?.id     // 10
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 3

rbTree.delete(15, true)[0].deleted?.id     // 15
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 3

rbTree.delete(5, true)[0].deleted?.id      // 5
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 3

rbTree.delete(13, true)[0].deleted?.id     // 13
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 3

rbTree.delete(3, true)[0].deleted?.id      // 3
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 3

rbTree.delete(8, true)[0].deleted?.id      // 8
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 3

rbTree.delete(6, true)[0].deleted?.id      // 6
rbTree.delete(6, true).length              // 0
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 2

rbTree.delete(7, true)[0].deleted?.id      // 7
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 2

rbTree.delete(9, true)[0].deleted?.id      // 9
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 2

rbTree.delete(14, true)[0].deleted?.id     // 14
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 1

rbTree.isAVLBalanced();                    // true
const lastBFSIds = rbTree.BFS();
lastBFSIds[0]                               // 12 

const lastBFSNodes = rbTree.BFS('node');
lastBFSNodes[0].id                          // 12
JS
const {RedBlackTree} = require('data-structure-typed');
// /* or if you prefer */ const {RedBlackTree} = require('red-black-tree-typed');

const rbTree = new RedBlackTree();

const idsOrVals = [11, 3, 15, 1, 8, 13, 16, 2, 6, 9, 12, 14, 4, 7, 10, 5];
rbTree.addMany(idsOrVals, idsOrVals);

const node6 = rbTree.getNodeByKey(6);
node6 && rbTree.getHeight(node6)           // 3
node6 && rbTree.getDepth(node6)            // 1
const getNodeById = rbTree.get(10, 'id');
getNodeById?.id                             // 10

const getMinNodeByRoot = rbTree.getLeftMost();
getMinNodeByRoot?.id                        // 1

const node15 = rbTree.getNodeByKey(15);
const getMinNodeBySpecificNode = node15 && rbTree.getLeftMost(node15);
getMinNodeBySpecificNode?.id                // 12

const node11 = rbTree.getNodeByKey(11);
node11?.id                                  // 11

const dfs = rbTree.dfs('in');
dfs[0].id                                   // 1 
rbTree.perfectlyBalance();
const bfs = rbTree.bfs('node');
rbTree.isPerfectlyBalanced() && bfs[0].id  // 8 

rbTree.delete(11, true)[0].deleted?.id     // 11
rbTree.isAVLBalanced();                    // true
node15 && rbTree.getHeight(node15)         // 2
rbTree.delete(1, true)[0].deleted?.id      // 1
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 4

rbTree.delete(4, true)[0].deleted?.id      // 4
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 4

rbTree.delete(10, true)[0].deleted?.id     // 10
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 3

rbTree.delete(15, true)[0].deleted?.id     // 15
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 3

rbTree.delete(5, true)[0].deleted?.id      // 5
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 3

rbTree.delete(13, true)[0].deleted?.id     // 13
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 3

rbTree.delete(3, true)[0].deleted?.id      // 3
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 3

rbTree.delete(8, true)[0].deleted?.id      // 8
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 3

rbTree.delete(6, true)[0].deleted?.id      // 6
rbTree.delete(6, true).length              // 0
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 2

rbTree.delete(7, true)[0].deleted?.id      // 7
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 2

rbTree.delete(9, true)[0].deleted?.id      // 9
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 2

rbTree.delete(14, true)[0].deleted?.id     // 14
rbTree.isAVLBalanced();                    // true
rbTree.getHeight()                         // 1

rbTree.isAVLBalanced();                    // true
const lastBFSIds = rbTree.bfs();
lastBFSIds[0]                               // 12 

const lastBFSNodes = rbTree.bfs('node');
lastBFSNodes[0].id                          // 12

API docs & Examples

API Docs

Live Examples

Examples Repository

Data Structures

Data StructureUnit TestPerformance TestAPI Docs
Red Black TreeRedBlackTree

Standard library data structure comparison

Data Structure TypedC++ STLjava.utilPython collections
RedBlackTree<K, V>map<K, V>TreeMap<K, V>-

Benchmark

rb-tree
test nametime taken (ms)executions per secsample deviation
100,000 add85.8511.650.00
100,000 add & delete randomly211.544.730.00
100,000 getNode37.9226.371.65e-4

Built-in classic algorithms

AlgorithmFunction DescriptionIteration Type
Binary Tree DFSTraverse a binary tree in a depth-first manner, starting from the root node, first visiting the left subtree, and then the right subtree, using recursion. Recursion + Iteration
Binary Tree BFSTraverse a binary tree in a breadth-first manner, starting from the root node, visiting nodes level by level from left to right. Iteration
Binary Tree MorrisMorris traversal is an in-order traversal algorithm for binary trees with O(1) space complexity. It allows tree traversal without additional stack or recursion. Iteration

Software Engineering Design Standards

PrincipleDescription
PracticalityFollows ES6 and ESNext standards, offering unified and considerate optional parameters, and simplifies method names.
ExtensibilityAdheres to OOP (Object-Oriented Programming) principles, allowing inheritance for all data structures.
ModularizationIncludes data structure modularization and independent NPM packages.
EfficiencyAll methods provide time and space complexity, comparable to native JS performance.
MaintainabilityFollows open-source community development standards, complete documentation, continuous integration, and adheres to TDD (Test-Driven Development) patterns.
TestabilityAutomated and customized unit testing, performance testing, and integration testing.
PortabilityPlans for porting to Java, Python, and C++, currently achieved to 80%.
ReusabilityFully decoupled, minimized side effects, and adheres to OOP.
SecurityCarefully designed security for member variables and methods. Read-write separation. Data structure software does not need to consider other security aspects.
ScalabilityData structure software does not involve load issues.

Keywords

FAQs

Package last updated on 26 Jan 2024

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