A lightweight, zero-dependency NPM Package for elegant string manipulations. It provides a comprehensive range of text utilities for JavaScript and Node.js applications including transformations, validations, analysis, and formatting.
- 💪 Powerful - Transform, validate, analyze, and format strings with minimal code
- 🪶 Lightweight - Zero dependencies, tiny footprint
- 🧩 Modular - Import only what you need with organized namespaces
- 🚀 Fast - Optimized for performance
- ✅ Tested - Reliable and robust
- 🎯 Comprehensive - 4 specialized modules for all string needs
# Using npm
npm install stringzy
# Using yarn
yarn add stringzy
# Using pnpm
pnpm add stringzy// Import the entire library
import stringzy from 'stringzy';
// Or import specific functions
import { isEmail, wordCount, formatPhone } from 'stringzy';
// Or import by namespace
import { transform, validate, analyze, format } from 'stringzy';
// Transform your strings
const slug = stringzy.toSlug('Hello World!'); // 'hello-world'
const isValid = stringzy.validate.isEmail('user@example.com'); // true
const count = stringzy.analyze.wordCount('Hello world'); // 2This release contains a performance-focused update to the permutations utilities:
stringPermutations(input: string)— rewritten to use an optimized iterative approach to reduce recursion overhead and peak memory usage for longer strings.stringPermutationsGenerator(input: string)— a new generator-based API that yields permutations lazily so you can iterate large permutation sets without allocating the full result array in memory.
These changes improve throughput and reduce memory pressure when working with larger inputs. Note: complexity remains O(n!) — this update optimizes allocation and recursion overhead. If your code relied on a precise ordering from a previous implementation, run your test-suite as ordering may differ in edge cases.
- truncateText - Truncates text to a specified maximum length
- toSlug - Converts a string to a URL-friendly slug
- capitalizeWords - Capitalizes the first letter of each word
- removeSpecialChars - Removes special characters from a string
- removeWords - Removes specified words from a string
- removeDuplicates - Removes duplicate words from a string
- initials - Extracts initials from a text string
- camelCase - Converts the given string to Camel Case
- pascalCase - Converts the given string to Pascal Case
- snakeCase - Converts the given string to Snake Case
- kebabCase - Converts the given string to Kebab Case
- titleCase - Converts the given string to Title Case
- constantCase - Converts the given string to Constant Case
- escapeHTML - Escapes HTML special characters to prevent XSS attacks
- maskSegment - Masks a segment of a string by replacing characters between two indices with a specified character
- deburr – Removes accents and diacritical marks from a string
- splitChunks - Breaks a string down into chunks of specified length.
- numberToText - Converts a number to its text representation in specified language
- reverseWordsInString - Reverses the order of words in a given string
- stringPermutations - Generates all unique permutations of a given string.
- stringPermutationsGenerator - Generator-based permutations API for lazy iteration.
- stringCombinations - Generates all unique combinations of a given string.
- isURL - Checks if a string is a valid URL
- isEmail - Checks if a string is a valid email address
- isDate - Checks if a string is a valid date
- isEmpty - Checks if a string is empty or contains only whitespace
- isSlug - Checks if a string is a valid slug
- isTypeOf - Checks if a file or URL has a valid extension for a given type
- isIPv4 - Checks if a string is a valid IPv4 address
- isIPv6 - Checks if a string is a valid IPv6 address
- isHexColor - Checks if the input string is a valid hex color
- isPalindrome - Checks if the input string is a palindrome (ignores case, spaces, and punctuation)
- isCoordinates - Checks if given latitude and longitude are valid coordinates
- isLowerCase - Checks if given string only has lower case characters.
- isUpperCase - Checks if given string only has upper case characters.
- isAlphabetic - Checks if input string contains only Alphabets (case insensitive)
- isAlphaNumeric - Checks if input string contains only Alphabets and Digits (case insensitive)
- isAnagram- Checks if both strings are anagrams of each other. (ignores case and punctuations)
- isMacAddress- Checks if a given string is a valid MAC address.
- isPanagram- Checks if a given string is a pangram (contains every letter of the English alphabet at least once).
- wordCount - Counts the number of words in a string
- contentWordCount- Counts the number of content words (nouns, verbs, adjectives, adverbs, etc.) in a string.
- functionWordCount- Counts the number of function words (prepositions, pronouns, conjunctions, articles, etc.) in a string.
- readingDuration - Calculates the reading duration of a given string
- characterCount - Counts the number of characters in a string
- characterFrequency - Analyzes character frequency in a string
- stringSimilarity - Calculates the percentage similarity between two strings
- complexity - Analyzes string complexity including score, uniqueness, and length
- patternCount - calculates the number of times a specific pattern occurs in a given text
- vowelConsonantCount - Counts the number of vowels and consonants in a given string
- checkMultiplePatterns - Finds occurrences of multiple patterns within a given text using Rabin–Karp algorithm (case sensitive)
- checkSubsequence - Checks whether the second string is a subsequence of the first string (case sensitive)
- stringRotation - Checks if one string is a rotation of another (case sensitive).
- lexicographicalRank - Calculates the lexicographical rank of a string among all its unique permutations.
- capitalize - Capitalizes the first letter of each word
- formatNumber - Formats a number string with thousand separators
- formatPhone - Formats a phone number string to standard format
- formatDuration - Converts a duration in seconds or milliseconds into a human-readable string
- trim - Removes unnecessary whitespace from a string.
- formatRomanNumeral - Converts a positive integer into its Roman numeral representation.
- formatPercentage - Converts a number into a percentage string with configurable decimal precision.
- formatFileSize - Converts a number of bytes into a human-readable file size string (B, KB, MB, GB, TB).
- formatOrdinal - Converts a number into its ordinal string representation (e.g., 1 → "1st", 2 → "2nd").
- formatList - Formats an array of strings into a human-readable list with proper commas and "and".
- formatCreditCard - Formats a credit card number by grouping digits into readable parts.
- formatToOctal - Converts a decimal number to octal, optional "0o" prefix.
- formatTemperature - Converts temperatures between Celsius, Fahrenheit, and Kelvin.
- formatScientific - Converts a number into scientific notation (e.g., 12345 → "1.23e+4").
- formatToBinary - Converts a decimal integer to a binary string with optional bit grouping.
- formatToHexadecimal - Converts temperatures between Celsius, Fahrenheit, and Kelvin.
- formatToDecimal - Converts base-2/8/16 strings to decimal.
Functions for transforming and manipulating strings.
Truncates text to a specified maximum length, adding a suffix if truncated.
import { truncateText } from 'stringzy';
truncateText('This is a long sentence that needs truncating', 10);
// Returns: 'This is a...'
truncateText('This is a long sentence', 10, ' →');
// Returns: 'This is a →'
truncateText('Short', 10);
// Returns: 'Short' (no truncation needed)| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to truncate |
| maxLength | number | required | Maximum length of the output string (excluding suffix) |
| suffix | string | '...' | String to append if truncation occurs |
Converts a string to a URL-friendly slug.
import { toSlug } from 'stringzy';
toSlug('Hello World!');
// Returns: 'hello-world'
toSlug('This is a TEST string 123');
// Returns: 'this-is-a-test-string-123'
toSlug('Special $#@! characters');
// Returns: 'special-characters'| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to convert to a slug |
Capitalizes the first letter of each word in a string.
import { capitalizeWords } from 'stringzy';
capitalizeWords('hello world');
// Returns: 'Hello World'
capitalizeWords('javascript string manipulation');
// Returns: 'Javascript String Manipulation'
capitalizeWords('already Capitalized');
// Returns: 'Already Capitalized'| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to capitalize |
Removes special characters from a string, optionally replacing them.
import { removeSpecialChars } from 'stringzy';
removeSpecialChars('Hello, world!');
// Returns: 'Hello world'
removeSpecialChars('email@example.com');
// Returns: 'emailexamplecom'
removeSpecialChars('Phone: (123) 456-7890', '-');
// Returns: 'Phone-123-456-7890'| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to process |
| replacement | string | '' | String to replace special characters with |
Removes specified words from a string
import { removeWords } from 'stringzy';
removeWords('Hello world this is a test', ['this', 'is']);
// Returns: 'Hello world a test'
removeWords('Remove The Quick BROWN fox', ['the', 'brown']);
// Returns: 'Remove Quick fox'
removeWords('JavaScript is awesome and JavaScript rocks', ['JavaScript']);
// Returns: 'is awesome and rocks'| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to process |
| wordsToRemove | string[] | required | Array of words to remove from the string |
Removes duplicate case-sensitive words from a given text.
import { removeDuplicates } from 'stringzy';
removeDuplicates('Hello world this is a is a test');
// Returns: 'Hello world this is a test'
removeDuplicates('Remove me me me me or Me');
// Returns: 'Remove me or Me'
removeDuplicates('JavaScript is not bad and not awesome');
// Returns: 'JavaScript is not bad and awesome'| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to process |
Extracts initials from a text string.
import { initials } from 'stringzy';
initials('John Doe');
// Returns: 'JD'
initials('Alice Bob Charlie', 2);
// Returns: 'AB'
initials('Hello World Test Case');
// Returns: 'HWTC'
initials('single');
// Returns: 's'
initials(' Multiple Spaces Between ');
// Returns: 'MSB'| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to extract initials from |
| limit | number | undefined | Maximum number of initials to return (optional) |
Converts the given string to Camel Case.
import { camelCase } from 'stringzy';
camelCase('hello world'); // 'helloWorld'
camelCase('this is a test'); // 'thisIsATest'| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to convert to Camel Case |
Converts the given string to Pascal Case.
import { pascalCase } from 'stringzy';
pascalCase('hello world'); // 'HelloWorld'
pascalCase('this is a test'); // 'ThisIsATest'| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to convert to Pascal Case |
Converts the given string to Snake Case.
import { snakeCase } from 'stringzy';
snakeCase('hello world'); // 'hello_world'
snakeCase('this is a test'); // 'this_is_a_test'| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to convert to Snake Case |
Converts the given string to Kebab Case.
import { kebabCase } from 'stringzy';
kebabCase('hello world'); // 'hello-world'
kebabCase('this is a test'); // 'this-is-a-test'| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to convert to Kebab Case |
Converts the given string to Title Case.
import { titleCase } from 'stringzy';
titleCase('hello world'); // 'Hello World'
titleCase('this is a test'); // 'This Is A Test'| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to convert to Title Case |
Converts the given string to Constant Case.
import { constantCase } from 'stringzy';
constantCase('hello world'); // 'HELLO_WORLD'
constantCase('this is a test'); // 'THIS_IS_A_TEST'| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to convert to Constant Case |
Escapes HTML special characters to prevent XSS attacks by converting them to their HTML entities.
import { escapeHTML } from 'stringzy';
escapeHTML('Tom & Jerry');
// Returns: 'Tom & Jerry'
escapeHTML('<script>alert("XSS")</script>');
// Returns: '<script>alert("XSS")</script>'
escapeHTML('<div class="test">content</div>');
// Returns: '<div class="test">content</div>'
escapeHTML('Say "Hello" & it\'s < 5 > 2');
// Returns: 'Say "Hello" & it's < 5 > 2'| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to escape HTML characters from |
Masks a segment of a string by replacing characters between two indices with a specified character (default is '*').
import { maskSegment } from 'stringzy';
maskSegment('1234567890', 2, 6);
// Returns: '12****7890'
maskSegment('abcdef', 1, 4, '#');
// Returns: 'a###ef'
maskSegment('token');
// Returns: '*****'| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to apply the masking to |
| maskStart | number | 0 |
The start index (inclusive) of the segment to mask |
| maskEnd | number | text.length |
The end index (exclusive) of the segment to mask |
| maskChar | string | '*' |
The character to use for masking (must be one character) |
Removes accents and diacritics from letters in a string (e.g. déjà vu → deja vu).
import { deburr } from 'stringzy';
deburr('déjà vu');
// Returns: 'deja vu'
deburr('Élève São Paulo');
// Returns: 'Eleve Sao Paulo'
deburr('über cool');
// Returns: 'uber cool'| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to strip diacritics from |
Takes a string and chunk size as the argument and splits the string into chunks of given size.
import { splitChunks } from 'stringzy';
splitChunks('helloworld', 2);
// Returns: ['he', 'll', 'ow', 'or', 'ld']
splitChunks('helloworld', 3);
// Returns: ['hel', 'low', 'orl', 'd']
splitChunks('helloworld');
// Returns: ['h', 'e', 'l', 'l', 'o', 'w', 'o', 'r', 'l', 'd']| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string that needs to be chunked |
| chunkSize | number | 1 |
The size of each chunk in which the string is to be split |
Converts a number to its text representation in the specified language.
import { numberToText } from 'stringzy';
numberToText(12345); // Returns: 'twelve thousand three hundred forty-five'
numberToText(12345, 'en'); // Returns: 'twelve thousand three hundred forty-five'
numberToText(12345, 'pl'); // Returns: 'dwanaście tysięcy trzysta czterdzieści pięć'| Parameter | Type | Default | Description |
|---|---|---|---|
| num | number | required | The number to convert to text |
| lang | string | 'en' | The language code for the text representation (e.g., 'en' for English, 'pl' for Polish) |
Available languages: en (English), pl (Polish).
Reverses the order of words in a string and reverses the position of surrounding whitespace (leading becomes trailing and vice-versa). Reverses the order of words in a string while preserving the exact original spacing between each word.
import { reverseWordsInString } from 'stringzy';
reverseWordsInString('Hello world from stringzy');
// Returns: 'stringzy from world Hello'
// Note how the double and triple spaces are preserved:
reverseWordsInString(' leading spaces and trailing ');
// Returns: ' trailing and spaces leading '
reverseWordsInString('single-word');
// Returns: 'single-word'| Parameter | Type | Default | Description |
|---|---|---|---|
| str | string | required | The input string to reverse |
Generates all unique permutations of the given string. Repeated characters are handled by ensuring only unique permutations are included in the returned array.
- Uses an optimized iterative algorithm under the hood to reduce recursion depth and intermediate allocations (lower peak memory usage and faster runtime for many practical inputs).
- Note: complexity remains O(n!) — this is an optimization of allocation/recursion overhead, not the factorial growth.
import { stringPermutations } from 'stringzy';
stringPermutations('ab');
// ['ab', 'ba']
stringPermutations('abc');
// ['abc', 'acb', 'bac', 'bca', 'cab', 'cba']
stringPermutations('aab');
// ['aab', 'aba', 'baa']| Parameter | Type | Default | Description |
|---|---|---|---|
| input | string | required | The input string to generate all unique permutations. |
Generator-based API that yields permutations one-by-one. Use this when you only need to process permutations sequentially or when the full result set would not fit in memory.
- Lazily produces permutations; does not allocate the entire permutation set in memory.
- Particularly useful for memory-sensitive workflows or streaming processing.
import { stringPermutationsGenerator } from 'stringzy';
for (const p of stringPermutationsGenerator('abcd')) {
console.log(p);
// process each permutation without building a giant array in memory
}
// If you must collect them all:
const perms = Array.from(stringPermutationsGenerator('abcd'));| Parameter | Type | Default | Description |
|---|---|---|---|
| input | string | required | The input string to generate permutations from. |
Generates all unique combinations (subsequences) of a given string, including the empty string.
Duplicate characters are handled by ensuring only unique combinations are returned.
The order of combinations in the output array is not guaranteed.
stringCombinations('ab');
// ["", "a", "b", "ab"]
stringCombinations('abc');
// ["", "a", "b", "c", "ab", "ac", "bc", "abc"]
stringCombinations('aab');
// ["", "a", "b", "aa", "ab", "aab"]
stringCombinations('');
// [""]
stringCombinations('A');
// ["", "A"]
stringCombinations('!@');
// ["", "!", "@", "!@"]| Parameter | Type | Default | Description |
|---|---|---|---|
| str | string | required | The input string to generate unique combinations from. |
Functions for validating string formats and content.
Checks if a string is a valid URL.
isURL('https://example.com'); // true
isURL('not-a-url'); // false| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to validate as URL |
Checks if a string is a valid email address.
isEmail('user@example.com'); // true
isEmail('invalid-email'); // false| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to validate as email |
Checks if a string is a valid date.
import { isDate } from 'stringzy';
isDate('2023-12-25', DateFormat.YYYMMDD); // true
isDate('12/25/2023', DateFormat.MMDDYYY, '/'); // true
isDate('20-12-25', DateFormat.YYYMMDD); // false
isDate('2023-12-1', DateFormat.YYYMMDD); // false
isDate('invalid-date', DateFormat.YYYMMDD); // false
isDate('2023-13-45', DateFormat.YYYMMDD); // false| Parameter | Type | Default | Description |
|---|---|---|---|
| input | string | required | The input string to validate as date |
| format | DateFormats | required | The date format to validate against |
| separator | string | optional | The separator to be used if it is not "-" |
Checks if a string is empty or contains only whitespace.
isEmpty(' '); // true
isEmpty('hello'); // false| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to check for emptiness |
Checks if a string is a valid slug.
isSlug('hello-world'); // true
isSlug('test-product-123'); // true
isSlug('Hello-World'); // false (uppercase letters)
isSlug('hello--world'); // false (consecutive hyphens)
isSlug('-hello-world'); // false (starts with hyphen)
isSlug('hello_world'); // false (underscore not allowed)| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to validate as slug |
Checks if a file or URL has a valid extension for a given type
isType('photo.PNG', 'image'); // true
isType('https://example.com/logo.svg', 'image'); // true
isType({ name: 'track.mp3' }, 'audio'); // true
isType('filewithoutextension', 'image'); // false
isType('document.zip', 'document'); // false
isType('video.mp4', 'document'); // false| Parameter | Type | Default | Description |
|---|---|---|---|
| input | string | required | The file name, URL string, or object with .name |
| input | string | required | The file type category to validate (image, video, audio, document, archive) |
Checks if a string is a valid IPv4 address.
import { isIPv4 } from 'stringzy';
isIPv4('192.168.1.1'); // true
isIPv4('0.0.0.0'); // true
isIPv4('256.1.1.1'); // false (out of range)
isIPv4('192.168.1'); // false (incomplete)
isIPv4('192.168.01.1'); // false (leading zeros)
isIPv4('192.168.1.a'); // false (non-numeric)| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to validate as IPv4 address |
Checks if a string is a valid IPv6 address.
import { isIPv6 } from 'stringzy';
isIPv6('2001:0db8:85a3:0000:0000:8a2e:0370:7334'); // true
isIPv6('0:0:0:0:0:0:0:1'); // true
isIPv6('2001:0db8:85a3:0000:0000:8a2e:0370:7334:1234'); // false (too many groups)
isIPv6('2001:db8:::1'); // false (invalid use of shorthand)
isIPv6('12345::abcd'); // false (out of range)
isIPv6('2001:db8::g1'); // false (non-hex character)| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to validate as IPv6 address |
Checks if a string is a valid Hex color.
import { isHexColor } from 'stringzy';
isHexColor('#fff'); // true
isHexColor('fff'); // true
isHexColor('#a1b2c3'); // true
isHexColor('123abc'); // true
isHexColor('#1234'); // false
isHexColor('blue'); // false| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to validate as Hex color |
Checks if a string is a palindrome. The check is case-insensitive and ignores spaces and punctuation.
import { isPalindrome } from 'stringzy';
isPalindrome('racecar'); // true
isPalindrome('A man, a plan, a canal: Panama'); // true
isPalindrome('No lemon, no melon'); // true
isPalindrome('hello'); // false
isPalindrome('Was it a car or a cat I saw?'); // true| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to check for palindrome |
Checks if given latitude and longitude are valid coordinates.
import { isCoordinates } from 'stringzy';
isCoordinates(48.8582, 2.2945); // true
isCoordinates(40.748817, -73.985428); // true
isCoordinates(9999, -9999); // false| Parameter | Type | Default | Description |
|---|---|---|---|
| latitude | number | required | Latitude to validate |
| longitude | number | required | Longitude to validate |
Checks whether the given string contains only lowercase alphabetic characters. Ignores digits, special characters, white spaces.
import { isLowerCase } from 'stringzy';
isLowerCase('hello'); // true
isLowerCase('hello123!'); // true
isLowerCase('Hello'); // false
isLowerCase('12345'); // false| Parameter | Type | Default | Description |
|---|---|---|---|
| str | string | required | The input string to validate as containing lowercase alphabetic letters |
Checks whether the given string contains only uppercase alphabetic characters. Ignores digits, special characters, white spaces.
import { isUpperCase } from 'stringzy';
isUpperCase('HELLO'); // true
isUpperCase('HELLO123!'); // true
isUpperCase('Hello'); // false
isUpperCase('12345'); // false| Parameter | Type | Default | Description |
|---|---|---|---|
| str | string | required | The input string to validate as containing uppercase alphabetic letters |
Checks if a string contains only alphabetic characters (a-z, A-Z). Throws an error if the input is not a string.
import { isAlphabetic } from 'stringzy';
isAlphabetic('hello'); // true
isAlphabetic('World'); // true
isAlphabetic('helloWORLD'); // true
isAlphabetic('abc123'); // false
isAlphabetic('hello!'); // false
isAlphabetic(''); // false| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to check for alphabetic only |
Checks if a string contains only alphanumeric characters (letters and digits). Throws an error if the input is not a string.
import { isAlphaNumeric } from 'stringzy';
isAlphaNumeric('abc123'); // true
isAlphaNumeric('A1B2C3'); // true
isAlphaNumeric('123'); // true
isAlphaNumeric('hello'); // true
isAlphaNumeric('hello!'); // false
isAlphaNumeric('123 456'); // false
isAlphaNumeric(''); // false| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to check for alphanumeric only |
Checks whether two strings are anagrams of each other (contain the same characters in the same frequency, regardless of order).
- Comparison is case-insensitive.
- Spaces and punctuation are ignored.
- Throws an error if either input is not a string.
import { isAnagram } from 'stringzy';
isAnagram('listen', 'silent'); // true
isAnagram('Debit Card', 'Bad Credit'); // true
isAnagram('Astronomer', 'Moon starer'); // true
isAnagram('hello', 'world'); // false
isAnagram('a', 'b'); // false
isAnagram('', ''); // true| Parameter | Type | Default | Description |
|---|---|---|---|
| str1 | string | required | The first string to check as an anagram |
| str2 | string | required | The second string to check as an anagram |
Checks whether a given string is a valid MAC address.
- A valid MAC address consists of six pairs of hexadecimal digits (
0–9,A–F, case-insensitive). - Returns
trueif the string is a valid MAC address, otherwisefalse. - Throws an error if input is not a string.
import { isMacAddress } from 'stringzy';
isMacAddress("00:1A:2B:3C:4D:5E"); // true
isMacAddress("00-1A-2B-3C-4D-5E"); // true
isMacAddress("aa:bb:cc:dd:ee:ff"); // true
isMacAddress("FF-FF-FF-FF-FF-FF"); // true
isMacAddress("00:1G:2B:3C:4D:5E"); // false (invalid hex digit)
isMacAddress("00:1A-2B:3C:4D:5E"); // false (mixed separators)
isMacAddress("001A:2B:3C:4D:5E"); // false (wrong group length)
isMacAddress("hello-world-mac"); // false (invalid format)
isMacAddress(""); // false (empty string)| Parameter | Type | Default | Description |
|---|---|---|---|
| str | string | required | The string to validate as a MAC address |
- Checks if a given string is a pangram (i.e., contains every letter of the English alphabet at least once).
- The check is case-insensitive, and non-alphabetic characters (numbers, punctuation, spaces) are ignored. An empty string is not considered a pangram.
- Throws an error if the input is not a string.
import { isPangram } from 'stringzy';
isPangram("The quick brown fox jumps over the lazy dog."); // true
isPangram("This is not a pangram."); // false
isPangram("Abcdefghijklmnopqrstuvwxyz"); // true
isPangram("AbCdEfGhIjKlMnOpQrStUvWxYz"); // true
isPangram("A-B-C-D-E-F-G-H-I-J-K-L-M-N-O-P-Q-R-S-T-U-V-W-X-Y-Z"); // true
isPangram(""); // false
isPangram("Hello world"); // false| Parameter | Type | Default | Description |
|---|---|---|---|
| str | string | required | The input string to check for pangram characteristics |
Functions for analyzing string content and structure.
Calculates the estimated reading duration for a given text based on an average reading speed.
import { readingDuration } from 'stringzy';
readingDuration(
'This is a sample text with twenty-three words to test the reading duration function.'
);
// Returns: 0 (23 words / 230 words per minute ≈ 0 minutes)
readingDuration(
'This text contains fifty words. It is designed to test the reading duration function with a larger input.',
200
);
// Returns: 1 (50 words / 200 words per minute ≈ 1 minute)
readingDuration(Array(9999).fill('Word').join(' '));
// Returns: 43 (9999 words / 230 words per minute ≈ 43 minutes)| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input text for which the reading duration is to be calculated |
| readingSpeed | number | 230 | The reading speed in words per minute. Defaults to 230 (average reading speed) |
Counts the number of words in a string.
wordCount('Hello world'); // 2
wordCount(''); // 0| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to count words in |
Counts the number of characters in a string.
characterCount('Hello'); // 5| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to count characters in |
Analyzes character frequency in a string (excluding spaces).
characterFrequency('hello'); // { h: 1, e: 1, l: 2, o: 1 }| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to analyze character frequency |
Calculates the percentage similarity between two texts using the selected algorithm. Method returns a percentage (0–100) value indicating how similar the two strings are.
stringSimilarity('kitten', 'sitting'); // Returns: 57.14
stringSimilarity('hello', 'hello'); // Returns: 100
stringSimilarity('flaw', 'lawn', 'Damerau-Levenshtein'); // Returns: 50| Parameter | Type | Default | Description |
|---|---|---|---|
| textA | string | required | The first text to compare. |
| textB | string | required | The second text to compare. |
| algorithm | string | 'Levenshtein' | The algorithm to use: 'Levenshtein' or 'Damerau-Levenshtein'. |
Analyzes the complexity of a string, returning an object with detailed metrics.
import { complexity } from 'stringzy';
complexity('abc');
// Returns: { score: [number], uniqueness: [number], length: 3 }
complexity('aA1!aA1!');
// Returns: { score: [number], uniqueness: [number], length: 8 }
complexity('');
// Returns: { score: 0, uniqueness: 0, length: 0 }| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to analyze complexity |
Returns: An object containing:
score(number): Overall complexity scoreuniqueness(number): Measure of character uniquenesslength(number): Length of the input string
feature/content-words
Counts the number of content words (nouns, verbs, adjectives, adverbs, etc.) in a string.
import { contentWordCount } from 'stringzy';
contentWordCount("Learning JavaScript improves coding skills!");
// Returns: { count: 5 }
contentWordCount("The cat sleeps on the warm windowsill.");
// Returns: { count: 5 }
contentWordCount("Wow! Such a beautiful day.");
// Returns: { count: 4 }| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to analyze content words |
Returns: An object containing:
count(number): Total number of content words in the string
Counts the number of function words (prepositions, pronouns, conjunctions, articles, etc.) in a string.
import { functionWordCount } from 'stringzy';
functionWordCount("She and I are going to the park.");
// Returns: { count: 7 }
functionWordCount("It is an example of proper grammar usage.");
// Returns: { count: 8 }
functionWordCount("Can you see the stars tonight?");
// Returns: { count: 5 }| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to analyze function words |
Returns: An object containing:
count(number): Total number of function words in the string
Counts the number of times a substring (pattern) occurs in a string, including overlapping occurrences.
This function uses the Knuth–Morris–Pratt (KMP) algorithm for efficient matching.
patternCount('aaaa', 'aa'); // 3
patternCount('abababa', 'aba'); // 3
patternCount('hello world', 'o'); // 2
patternCount('hello world', 'x'); // 0| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to search in |
| pattern | string | required | The substring (pattern) to count (overlapping) |
Counts the number of vowels and consonants in a given string.
This function is case-insensitive and ignores non-alphabetic characters.
vowelConsonantCount('hello');
// { vowels: 2, consonants: 3 }
vowelConsonantCount('stringzy');
// { vowels: 1, consonants: 7 }
vowelConsonantCount('');
// { vowels: 0, consonants: 0 }| Parameter | Type | Default | Description |
|---|---|---|---|
| str | string | required | The input string to count vowels and consonants in |
feature/content-words
Finds occurrences of multiple patterns within a given text using the Rabin–Karp algorithm.
Accepts an array of patterns.
Returns all matches of each pattern along with starting indices.
Handles hash collisions by verifying actual substrings.
Pattern matching is case sensitive.
checkMultiplePatterns('abracadabra', ['abra', 'cad']);
// { abra: [0, 7], cad: [4] }
checkMultiplePatterns('aaaa', ['aa', 'aaa']);
// { aa: [0, 1, 2], aaa: [0, 1] }
checkMultiplePatterns('hello world', ['xyz', '123']);
// { xyz: [], 123: [] }| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The text to search within. |
| patterns | string[ ] | required | An array of patterns to search for (each must be a string). |
Checks whether a given string sub is a subsequence of another string str. A subsequence maintains the relative order of characters, but they do not need to be consecutive. Case-sensitive comparison is performed. Spaces and all characters are treated literally.
isSubsequence('abcde', 'ace');
// true → 'a', 'c', 'e' appear in order
isSubsequence('abracadabra', 'aaa');
// true → multiple 'a's in correct order
isSubsequence('abcde', 'aec');
// false → order is broken (e comes before c)
isSubsequence('anything', '');
// true → empty subsequence is always valid
isSubsequence('AbC', 'AC');
// true → exact case matches
isSubsequence('a b c', 'abc');
// false → spaces count as characters| Parameter | Type | Default | Description |
|---|---|---|---|
| str | string | required | The main string to check within. |
| sub | string | required | The subsequence string to verify against str. |
Checks whether a given string str2 is a rotation of another string str1.
Case-sensitive comparison is performed. Both strings must be of equal length to be considered rotations.
Spaces and all characters are treated literally.
isRotation('waterbottle', 'erbottlewat');
// true → rotation at position 3
isRotation('abcde', 'cdeab');
// true → rotation at position 2
isRotation('abc', 'abc');
// true → no rotation, identical strings
isRotation('abc', 'cab');
// true → rotation at position 2
isRotation('abc', 'bac');
// false → not a valid rotation
isRotation('ArB', 'Bar');
// false → case-sensitive mismatch
isRotation('abcd', 'abc');
// false → lengths differ| Parameter | Type | Default | Description |
|---|---|---|---|
| str1 | string | required | The original string. |
| str2 | string | required | The string to verify if it is a rotation of str1. |
Calculates the lexicographic rank of a string among all its unique permutations sorted alphabetically.
The rank is 1-based (first permutation has rank 1).
Handles duplicate characters by correctly adjusting ranks.
lexicographicRank("acb");
// 2 → permutations: ["abc", "acb", "bac", "bca", "cab", "cba"]
lexicographicRank("string");
// 598
lexicographicRank("cba");
// 6 → permutations: ["abc", "acb", "bac", "bca", "cab", "cba"]
lexicographicRank("aba");
// 2 → permutations: ["aab", "aba", "baa"]
lexicographicRank("a");
// 1
lexicographicRank("");
// 1 → edge case, empty string considered rank 1| Parameter | Type | Default | Description |
|---|---|---|---|
| str | string | required | The input string to calculate the rank of |
Functions for formatting strings into specific patterns.
Capitalizes the first letter of each word.
capitalize('hello world'); // 'Hello World'
capitalize('javaScript programming'); // 'Javascript Programming'| Parameter | Type | Default | Description |
|---|---|---|---|
| text | string | required | The input string to capitalize |
Formats a number string with thousand separators.
formatNumber('1234567'); // '1,234,567'
formatNumber('1234567', '.'); // '1.234.567'| Parameter | Type | Default | Description |
|---|---|---|---|
| number | string|number | required | The number to format |
| separator | string | ',' | The separator to use for thousands |
Formats a phone number string to standard format.
formatPhone('1234567890'); // '(123) 456-7890'
formatPhone('11234567890', 'international'); // '+1 (123) 456-7890'| Parameter | Type | Default | Description |
|---|---|---|---|
| phone | string | required | The phone number string to format |
| format | string | 'us' | Format type: 'us' or 'international' |
Converts a duration in seconds or milliseconds into a human-readable string.
formatDuration(60); // "1m"
formatDuration(61); // "1m 1s"
formatDuration(3661); // "1h 1m 1s"
formatDuration(7325); // "2h 2m 5s"
formatDuration(1234567, { unit: 'milliseconds', includeMs: true }); // "20m 34s 567ms"| Parameter | Type | Default | Description |
|---|---|---|---|
| input | number | required | The duration in seconds or milliseconds |
| options | object | {} |
Optional configuration object |
| - unit | string | 'seconds' | Input unit: 'seconds' or 'milliseconds' |
| - format | string | 'short' | Output format: 'short', 'medium', or 'long' |
| - includeMs | boolean | false | Whether to include milliseconds in output |
| - delimiter | string | ' ' | The delimiter between time units |
Removes unnecessary whitespace from a string, including leading/trailing spaces, multiple spaces between words, tabs, and line breaks.
trim(' hello world '); // 'hello world'
trim('line \n breaks\tand tabs'); // 'line breaks and tabs'| Parameter | Type | Default | Description |
|---|---|---|---|
| str | string | required | The input string to trim and normalize. |
Converts a positive integer into its Roman numeral representation (supports values from 1 to 3999). Throws an error for invalid, non-numeric, zero, or negative inputs.
import { formatRomanNumeral } from 'stringzy';
formatRomanNumeral(1); // "I"
formatRomanNumeral(4); // "IV"
formatRomanNumeral(9); // "IX"
formatRomanNumeral(58); // "LVIII"
formatRomanNumeral(1994); // "MCMXCIV"
// Invalid cases
formatRomanNumeral(0); // RangeError
formatRomanNumeral(-5); // RangeError
formatRomanNumeral('123'); // TypeError| Parameter | Type | Default | Description |
|---|---|---|---|
| num | number | required | The integer (1–3999) to convert into Roman numerals. |
Converts a number into a percentage string with configurable decimal precision.
Supports positive, negative, and whole numbers.
Throws an error for invalid or non-numeric inputs.
import { formatPercentage } from 'stringzy';
formatPercentage(0.567); // "56.70%"
formatPercentage(0.567, 1); // "56.7%"
formatPercentage(0.5, 0); // "50%"
formatPercentage(1); // "100%"
formatPercentage(-0.25); // "-25%"
formatPercentage(50); // "5000%"
// Invalid cases
formatPercentage('0.5'); // TypeError
formatPercentage(null); // TypeError
formatPercentage(0.5, -1); // TypeError| Parameter | Type | Default | Description |
|---|---|---|---|
| num | number | required | The number to convert into a percentage string. |
| precision | number | 2 | The number of decimal places to include in the output. |
Converts a number of bytes into a human-readable file size string (B, KB, MB, GB, TB).
Automatically scales the unit based on the size and supports configurable decimal precision.
Throws an error for invalid, non-numeric, or negative inputs.
import { formatFileSize } from 'stringzy';
formatFileSize(123); // "123 B"
formatFileSize(1024); // "1 KB"
formatFileSize(1048576); // "1 MB"
formatFileSize(1073741824); // "1 GB"
formatFileSize(1572864); // "1.5 MB"
formatFileSize(1500, 3); // "1.465 KB"
// Invalid cases
formatFileSize(-1024); // RangeError
formatFileSize('1024'); // TypeError
formatFileSize(1024, -1); // TypeError| Parameter | Type | Default | Description |
|---|---|---|---|
| bytes | number | required | The number of bytes to convert into a human-readable file size. |
| precision | number | 2 | The number of decimal places for fractional sizes. |
Converts a number into its ordinal string representation (e.g., 1 → "1st", 2 → "2nd").
Handles special cases for numbers ending in 11, 12, and 13.
Throws a TypeError if the input is not a number.
import { formatOrdinal } from 'stringzy';
formatOrdinal(1); // "1st"
formatOrdinal(2); // "2nd"
formatOrdinal(3); // "3rd"
formatOrdinal(4); // "4th"
formatOrdinal(11); // "11th"
formatOrdinal(12); // "12th"
formatOrdinal(13); // "13th"
formatOrdinal(21); // "21st"
formatOrdinal(22); // "22nd"
formatOrdinal(23); // "23rd"
formatOrdinal(24); // "24th"
// Invalid cases
formatOrdinal('21'); // TypeError
formatOrdinal(null); // TypeError| Parameter | Type | Default | Description |
|---|---|---|---|
| num | number | required | The number to format as an ordinal. |
Formats an array of strings into a human-readable list using commas and "and". Automatically applies the Oxford comma for lists of three or more items. Returns an empty string for empty arrays and throws a TypeError for invalid inputs.
import { formatList } from 'stringzy';
formatList(['apples', 'bananas', 'cherries']); // "apples, bananas, and cherries"
formatList(['apples', 'bananas']); // "apples and bananas"
formatList(['apple']); // "apple"
formatList([]); // ""
// Invalid cases
formatList('apple'); // TypeError
formatList(['apple', 123]); // TypeError| Parameter | Type | Default | Description |
|---|---|---|---|
| arr | string[] | required | The array of strings to format as a list. |
Formats a credit card number into readable groups of digits separated by spaces. Supports 15-digit (AmEx) and 16-digit (Visa/MasterCard) numbers. Non-digit characters are automatically stripped before formatting. Throws an error if the input is not a string.
import { formatCreditCard } from 'stringzy';
formatCreditCard('1234567812345678'); // "1234 5678 1234 5678"
formatCreditCard('4111111111111111'); // "4111 1111 1111 1111"
formatCreditCard('378282246310005'); // "3782 822463 10005" (AmEx)
formatCreditCard('4111-1111-1111-1111'); // "4111 1111 1111 1111"
formatCreditCard('123'); // "" (invalid length)
formatCreditCard(''); // "" (empty string)| Parameter | Type | Default | Description |
|---|---|---|---|
| cardNumber | string | required | The credit card number to format. Cannot include non-digit characters. |
Converts a decimal number to its octal (base-8) string representation. Supports negatives and an optional 0o prefix.
import { formatToOctal } from 'stringzy';
formatToOctal(8); // "10"
formatToOctal(10); // "12"
formatToOctal(255); // "377"
formatToOctal(0); // "0"
formatToOctal(255, { prefix: true }); // "0o377"
formatToOctal(-255, { prefix: true }); // "-0o377"
// Invalid cases
// formatToOctal('10'); // TypeError
// formatToOctal(NaN); // TypeError| Parameter | Type | Default | Description |
|---|---|---|---|
| num | number | required | The decimal number to convert |
| options | object | {} | Optional settings |
| - prefix | boolean | false | If true, prepend the result with 0o |
Converts a temperature value between Celsius (C), Fahrenheit (F), and Kelvin (K), with configurable decimal precision.
formatTemperature(0, { from: 'C', to: 'F' }); // "32.00°F"
formatTemperature(32, { from: 'F', to: 'C', precision: 1 }); // "0.0°C"
formatTemperature(25, { from: 'C', to: 'K' }); // "298.15K"
formatTemperature(300, { from: 'K', to: 'F' }); // "80.33°F"| Parameter | Type | Default | Description |
|---|---|---|---|
| value | number | required | Temperature to convert |
| options | object | required | Conversion settings |
| - from | string | required | Source unit: 'C' |
| - to | string | required | Target unit: 'C' |
| - precision | number | 2 | Number of decimal places in the output |
Notes:
- Kelvin values are rendered without the degree symbol (e.g., "298.15K").
- An error is thrown for invalid conversions or non-numeric input values.
Converts a number into scientific notation (e.g., 12345 → "1.23e+4").
Supports custom precision and uppercase "E" formatting.
Handles negative numbers correctly.
Throws TypeError if input is not a valid number.
import { formatScientific } from 'stringzy';
formatScientific(12345); // "1.23e+4"
formatScientific(0.000123); // "1.23e-4"
formatScientific(-98765); // "-9.88e+4"
formatScientific(1000000, { precision: 4 }); // "1.0000e+6"
formatScientific(98765, { uppercase: true }); // "9.88E+4"
formatScientific(12345, { precision: 5, uppercase: true }); // "1.23450E+4"
// Invalid cases
formatScientific('12345'); // TypeError
formatScientific(null); // TypeError| Parameter | Type | Default | Description |
|---|---|---|---|
| num | number | required | The number to convert to scientific notation. |
| options | object | optional | Formatting settings. |
| options.precision | number | 2 | Digits after decimal point. |
| options.uppercase | boolean | false | Uses "E" instead of "e". |
Converts a decimal integer to its binary (base-2) string representation with optional grouping from the least significant bit for readability. Supports negative numbers.
import { formatToBinary } from 'stringzy';
// Basic conversions
formatToBinary(5); // "101"
formatToBinary(10); // "1010"
formatToBinary(255); // "11111111"
formatToBinary(0); // "0"
formatToBinary(-5); // "-101"
// Grouping from right to left (no left-padding)
formatToBinary(255, { group: 4 }); // "1111 1111"
formatToBinary(10, { group: 2 }); // "10 10"
formatToBinary(-255, { group: 4 }); // "-1111 1111"
// Invalid cases
formatToBinary(3.14); // TypeError (must be an integer)
formatToBinary('5'); // TypeError (input must be a number)
formatToBinary(10, { group: 0 }); // TypeError (group must be positive integer)| Parameter | Type | Default | Description |
|---|---|---|---|
| num | number | required | The decimal integer to convert to binary. |
| options | object | {} |
Optional configuration. |
| - group | number | — | Positive integer; bits per group (right-to-left) |
Converts a decimal number into its hexadecimal (base-16) string representation.
Supports optional prefix "0x" and lowercase formatting.
Handles negative numbers by adding a - sign before the output.
Throws a TypeError if the input is not a valid number.
import { formatToHexadecimal } from 'stringzy';
formatToHexadecimal(10); // "A"
formatToHexadecimal(15); // "F"
formatToHexadecimal(255); // "FF"
formatToHexadecimal(4095); // "FFF"
// Negative numbers
formatToHexadecimal(-255); // "-FF"
// With prefix
formatToHexadecimal(255, { prefix: true }); // "0xFF"
formatToHexadecimal(-255, { prefix: true }); // "-0xFF"
// Lowercase output
formatToHexadecimal(255, { lowercase: true }); // "ff"
// Prefix + lowercase
formatToHexadecimal(255, { prefix: true, lowercase: true }); // "0xff"
// Invalid cases
formatToHexadecimal('255'); // TypeError
formatToHexadecimal(null); // TypeError
formatToHexadecimal(NaN); // TypeError| Parameter | Type | Default | Description |
|---|---|---|---|
| num | number | required | The decimal number to convert to hexadecimal. |
| options | object (optional) | {} |
Formatting options. |
| options.prefix | boolean | false |
Adds "0x" before the result (or "-0x" for negatives). |
| options.lowercase | boolean | false |
Outputs letters in lowercase ("ff" instead of "FF"). |
Converts a binary, octal, or hexadecimal string into its decimal (base‑10) number. Supports optional standard prefixes and trims whitespace. Hex accepts uppercase and lowercase.
import { formatToDecimal } from 'stringzy';
// Binary (base 2)
formatToDecimal('1010', { base: 2 }); // 10
formatToDecimal('0b111', { base: 2 }); // 7
// Octal (base 8)
formatToDecimal('12', { base: 8 }); // 10
formatToDecimal('0o377', { base: 8 }); // 255
// Hexadecimal (base 16)
formatToDecimal('FF', { base: 16 }); // 255
formatToDecimal('0x10', { base: 16 }); // 16
// Trimming and sign handling
formatToDecimal(' +0xFF ', { base: 16 }); // 255
formatToDecimal('-0b10', { base: 2 }); // -2
// Invalid cases (throw TypeError)
// formatToDecimal('102', { base: 2 });
// formatToDecimal('89', { base: 8 });
// formatToDecimal('0xG1', { base: 16 });
// formatToDecimal('10', { base: 10 });| Parameter | Type | Default | Description |
|---|---|---|---|
| value | string | required | The numeric string to convert (may include prefix) |
| options | object | required | Configuration for conversion |
| - base | 2 | 8 | 16 | required | The base of the input string |
import { isEmail, wordCount, capitalize } from 'stringzy';
const email = 'user@example.com';
if (isEmail(email)) {
console.log('Valid email!');
}import { validate, analyze, format } from 'stringzy';
// Organized by functionality
const emailValid = validate.isEmail('test@example.com');
const words = analyze.wordCount('Hello world');
const formatted = format.capitalize('hello world');import stringzy from 'stringzy';
// Access any function
stringzy.toUpperCase('hello');
stringzy.validate.isEmail('test@example.com');
stringzy.analyze.wordCount('Hello world');
stringzy.format.capitalize('hello world');import React from 'react';
import { truncateText, capitalize, wordCount, isEmpty } from 'stringzy';
function ArticlePreview({ title, content }) {
const displayTitle = isEmpty(title) ? 'Untitled' : capitalize(title);
const previewText = truncateText(content, 150);
const readingTime = Math.ceil(wordCount(content) / 200);
return (
<div className="article-preview">
<h2>{displayTitle}</h2>
<p>{previewText}</p>
<small>{readingTime} min read</small>
</div>
);
}import { validate } from 'stringzy';
function validateForm(formData) {
const errors = {};
if (!validate.isEmail(formData.email)) {
errors.email = 'Please enter a valid email address';
}
if (!validate.isURL(formData.website)) {
errors.website = 'Please enter a valid URL';
}
if (validate.isEmpty(formData.name)) {
errors.name = 'Name is required';
}
return errors;
}import { analyze } from 'stringzy';
function getContentStats(text) {
return {
words: analyze.wordCount(text),
characters: analyze.characterCount(text),
frequency: analyze.characterFrequency(text),
readingTime: Math.ceil(analyze.wordCount(text) / 200),
};
}import { format } from 'stringzy';
function formatUserData(userData) {
return {
name: format.capitalize(userData.name),
phone: format.formatPhone(userData.phone),
revenue: format.formatNumber(userData.revenue),
};
}The package includes TypeScript type definitions for all functions.
import { validate, analyze, format } from 'stringzy';
// TypeScript will provide proper type checking
const isValid: boolean = validate.isEmail('test@example.com');
const count: number = analyze.wordCount('Hello world');
const formatted: string = format.capitalize('hello world');stringzy is organized into four specialized modules:
transformations.js- Core string transformationsvalidations.js- String validation utilitiesanalysis.js- String analysis and metricsformatting.js- String formatting functions
Each module can be imported individually or accessed through the main entry point.
Contributions are welcome! Please read our contribution guidelines before submitting a pull request.
Have questions, ideas, or want to contribute? Join our Discord server to chat with the community, discuss features, and help shape the future of the project.
This project is licensed under the MIT License - see the LICENSE file for details.
- Thank you to all contributors and users of this package!
- Inspired by the need for comprehensive yet simple string manipulation utilities.
If you have contributed to this project and your image is not here, please let us know, and we'll be happy to add it!
Made with ❤️ by Samarth Ruia