addressable-binary-heaps v1.0.0

Addressable Binary Heaps

A TypeScript library for addressable binary heaps, offering efficient min-heap and max-heap implementations, supporting both object-oriented and functional programming paradigms.

Key Features

• 🗃️ Addressable Heaps: Implements min-heap and max-heap structures with an addressable architecture, allowing direct access to elements for modifications and extensions.

• 🚀 High Performance: Utilizes an array-based implementation for fast and efficient heap operations, ensuring optimal time complexity for insertions, deletions, and updates.

• 🛠️ Versatile API: Provides both class-based (MaxHeap, MinHeap) and functional (maxHeap, minHeap) APIs, catering to different programming styles.

• 🧩 Comprehensive Operations: Supports all essential heap functions (add, remove, peek, pop, clear) along with efficient key modification methods (increase, decrease).

Table of Contents

• System Requirements
• Installation
• Getting Started
  • Using Class-Based Implementation
  • Using Functional Implementation
• Importing Modules
  • Importing the Entire Package
  • Importing Individual Heap Functions
• Code documentation
• Issues and Support
• License

System Requirements

Installation

Install via npm

npm install addressable-binary-heaps

Install via yarn

yarn add addressable-binary-heaps

Install via pnpm

pnpm install addressable-binary-heaps

Getting Started

Here's a quick guide to help you get started with the library.

Using Class-Based Implementation

import { MaxHeap } from 'addressable-binary-heaps';

const element_1 = { key: 4 };
const element_2 = { key: 2 };
const element_3 = { key: 6 };

const initialElements = [element_1, element_2];

// Create a max-heap instance with initial elements.
const heap = new MaxHeap(initialElements);

// Get heap size.
console.log(heap.size); // 2

// Get the heap element that has the maximum key value.
console.log(heap.peek()); // { key: 4 }

// Accessing heap elements through a loop.
for (let elem of heap) {
  console.log(elem);
  /*
  { key: 4 }
  { key: 2 }
  */
}

// Add new element to the heap.
heap.add(element_3);

console.log(heap.size); // 3
console.log(heap.peek()); // { key: 6 }

// Accessing heap elements with the "forEach" iterative method.
heap.forEach((elem) => {
  console.log(elem);
  /*
  { key: 6 }
  { key: 2 }
  { key: 4 }
  */
});

// Increase heap element key value.
console.log(heap.increase(element_2, 5)); // true

// Accessing heap elements with the "entries" iterator.
const entries = heap.entries();
for (let curr = entries.next(); !curr.done; curr = entries.next()) {
  console.log(curr.value);
  /*
  { key: 7 }
  { key: 6 }
  { key: 4 }
  */
}

// Decrease heap element key value.
console.log(heap.decrease(element_2, 10)); // true

// Accessing heap element keys with the "keys" iterator.
const keys = heap.keys();
for (let curr = keys.next(); !curr.done; curr = keys.next()) {
  console.log(curr.value);
  /*
  6
  -3
  4
  */
}

// Remove from the heap the element that has the maximum key value.
console.log(heap.pop()); // { key: 6 }

console.log(heap.size); // 2
console.log(heap.peek()); // { key: 4 }

// Remove specific element from the heap.
console.log(heap.remove(element_1)); // true

console.log(heap.size); // 1
console.log(heap.peek()); // { key: -3 }

// Clear the heap.
heap.clear();

console.log(heap.size); // 0
console.log(heap.peek()); // undefined

Using Functional Implementation

import { maxHeap } from 'addressable-binary-heaps';

const element_1 = { key: 4 };
const element_2 = { key: 2 };
const element_3 = { key: 6 };

const initialElements = [element_1, element_2];

// Create a max-heap instance with initial elements.
const heap = maxHeap.create(initialElements);

// Get heap size.
console.log(heap.length); // 2

// Get the heap element that has the maximum key value.
console.log(maxHeap.peek(heap)); // { key: 4 }

// Accessing heap elements through a loop.
for (let elem of heap) {
  console.log(elem);
  /*
  { key: 4 }
  { key: 2 }
  */
}

// Add new element to the heap.
maxHeap.add(heap, element_3);

console.log(heap.length); // 3
console.log(maxHeap.peek(heap)); // { key: 6 }

// Accessing heap elements with the "forEach" iterative method.
heap.forEach((elem) => {
  console.log(elem);
  /*
  { key: 6 }
  { key: 2 }
  { key: 4 }
  */
});

// Increase heap element key value.
console.log(maxHeap.increase(heap, element_2, 5)); // true

// Accessing heap elements with the "entries" iterator.
const entries = maxHeap.entries(heap);
for (let curr = entries.next(); !curr.done; curr = entries.next()) {
  console.log(curr.value);
  /*
  { key: 7 }
  { key: 6 }
  { key: 4 }
  */
}

// Decrease heap element key value.
console.log(maxHeap.decrease(heap, element_2, 10)); // true

// Accessing heap element keys with the "keys" iterator.
const keys = maxHeap.keys(heap);
for (let curr = keys.next(); !curr.done; curr = keys.next()) {
  console.log(curr.value);
  /*
  6
  -3
  4
  */
}

// Remove from the heap the element that has the maximum key value.
console.log(maxHeap.pop(heap)); // { key: 6 }

console.log(heap.length); // 2
console.log(maxHeap.peek(heap)); // { key: 4 }

// Remove specific element from the heap.
console.log(maxHeap.remove(heap, element_1)); // true

console.log(heap.length); // 1
console.log(maxHeap.peek(heap)); // { key: -3 }

// Clear the heap.
maxHeap.clear(heap);

console.log(heap.length); // 0
console.log(maxHeap.peek(heap)); // undefined

Importing Modules

The library offers flexible import options to suit different development needs. You can import everything at once, or select individual functions as needed.

Importing the Entire Package

To access all classes, interfaces, and functional APIs:

import {
  // Concrete Classes
  MaxHeap,
  MinHeap,

  // Abstract Base Class
  AbstractHeap,

  // Interfaces
  IHeapArray,
  IHeapNode,

  // Functional APIs
  maxHeap,
  minHeap,
} from 'addressable-binary-heaps';

This approach is convenient when you need a broad range of functionalities from the library.

Importing Individual Heap Functions

For maximum control and minimal footprint, import individual functions or operations.

For Max Heap:

import {
  add,
  clear,
  create,
  decrease,
  entries,
  increase,
  keys,
  peek,
  pop,
  remove,
  size,
} from 'addressable-binary-heaps/max-heap';

For Min Heap:

import {
  add,
  clear,
  create,
  decrease,
  entries,
  increase,
  keys,
  peek,
  pop,
  remove,
  size,
} from 'addressable-binary-heaps/min-heap';

This method helps keep your bundle size small by only including necessary modules.

Code documentation

The complete API reference of the library is available at the code documentation site.

Issues and Support

If you encounter any issues or have questions, please open an issue.

License

This project is licensed under the MIT License.