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red-black-tree-typed
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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
npm i red-black-tree-typed --save
yarn add red-black-tree-typed
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
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
Data Structure | Unit Test | Performance Test | API Docs |
---|---|---|---|
Red Black Tree | RedBlackTree |
Data Structure Typed | C++ STL | java.util | Python collections |
---|---|---|---|
RedBlackTree<K, V> | map<K, V> | TreeMap<K, V> | - |
test name | time taken (ms) | executions per sec | sample deviation |
---|---|---|---|
100,000 add | 85.85 | 11.65 | 0.00 |
100,000 add & delete randomly | 211.54 | 4.73 | 0.00 |
100,000 getNode | 37.92 | 26.37 | 1.65e-4 |
Algorithm | Function Description | Iteration Type |
---|---|---|
Binary Tree DFS | Traverse 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 BFS | Traverse 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 Morris | Morris 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 |
Principle | Description |
---|---|
Practicality | Follows ES6 and ESNext standards, offering unified and considerate optional parameters, and simplifies method names. |
Extensibility | Adheres to OOP (Object-Oriented Programming) principles, allowing inheritance for all data structures. |
Modularization | Includes data structure modularization and independent NPM packages. |
Efficiency | All methods provide time and space complexity, comparable to native JS performance. |
Maintainability | Follows open-source community development standards, complete documentation, continuous integration, and adheres to TDD (Test-Driven Development) patterns. |
Testability | Automated and customized unit testing, performance testing, and integration testing. |
Portability | Plans for porting to Java, Python, and C++, currently achieved to 80%. |
Reusability | Fully decoupled, minimized side effects, and adheres to OOP. |
Security | Carefully designed security for member variables and methods. Read-write separation. Data structure software does not need to consider other security aspects. |
Scalability | Data structure software does not involve load issues. |
FAQs
RedBlackTree. Javascript & Typescript Data Structure.
We found that red-black-tree-typed demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 0 open source maintainers collaborating on the project.
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