Curated collection of useful Javascript snippets that you can understand in 30 seconds or less.
- Use Ctrl + F or command + F to search for a snippet.
- Contributions welcome, please read the contribution guide.
- Snippets are written in ES6, use the Babel transpiler to ensure backwards-compatibility.
- You can import these snippets into Alfred 3, using this file.
arrayGcd
arrayLcm
arrayMax
arrayMin
chunk
compact
countOccurrences
deepFlatten
difference
differenceWith
distinctValuesOfArray
dropElements
dropRight
everyNth
filterNonUnique
flatten
flattenDepth
groupBy
head
initial
initialize2DArray
initializeArrayWithRange
initializeArrayWithValues
intersection
last
mapObject
nthElement
pick
pull
pullAtIndex
pullAtValue
remove
sample
shuffle
similarity
symmetricDifference
tail
take
takeRight
union
without
zip
zipObject
arrayToHtmlList
bottomVisible
currentURL
detectDeviceType
elementIsVisibleInViewport
getScrollPosition
getURLParameters
httpsRedirect
redirect
scrollToTop
arrayAverage
arraySum
clampNumber
collatz
digitize
distance
factorial
fibonacci
fibonacciCountUntilNum
fibonacciUntilNum
gcd
hammingDistance
inRange
isArmstrongNumber
isDivisible
isEven
isPrime
lcm
median
palindrome
percentile
powerset
primes
randomIntegerInRange
randomNumberInRange
round
standardDeviation
anagrams
capitalize
capitalizeEveryWord
countVowels
escapeRegExp
fromCamelCase
repeatString
reverseString
sortCharactersInString
toCamelCase
toKebabCase
toSnakeCase
truncateString
words
coalesce
coalesceFactory
extendHex
getType
hexToRGB
isArray
isBoolean
isFunction
isNumber
isString
isSymbol
randomHexColorCode
RGBToHex
timeTaken
toDecimalMark
toOrdinalSuffix
UUIDGenerator
validateNumber
Given a key and a set of arguments, call them when given a context. Primarily useful in composition.
Use a closure to call a stored key with stored arguments.
const call = ( key, ...args ) => context => context[ key ]( ...args );
/*
Promise.resolve( [ 1, 2, 3 ] ).then( call('map', x => 2 * x ) ).then( console.log ) //[ 2, 4, 6 ]
const map = call.bind(null, 'map')
Promise.resolve( [ 1, 2, 3 ] ).then( map( x => 2 * x ) ).then( console.log ) //[ 2, 4, 6 ]
*/
Changes a function that accepts an array into a variadic function.
Given a function, return a closure that collects all inputs into an array-accepting function.
const collectInto = fn => ( ...args ) => fn( args );
/*
const Pall = collectInto( Promise.all.bind(Promise) )
let p1 = Promise.resolve(1)
let p2 = Promise.resolve(2)
let p3 = new Promise((resolve) => setTimeout(resolve,2000,3))
Pall(p1, p2, p3).then(console.log)
*/
Flip takes a function as an argument, then makes the first argument the last
Return a closure that takes variadic inputs, and splices the last argument to make it the first argument before applying the rest.
const flip = fn => (...args) => fn(args.pop(), ...args)
/*
let a = {name: 'John Smith'}
let b = {}
const mergeFrom = flip(Object.assign)
let mergePerson = mergeFrom.bind(null, a)
mergePerson(b) // == b
b = {}
Object.assign(b, a) // == b
*/
Converts an asynchronous function to return a promise.
Use currying to return a function returning a Promise
that calls the original function.
Use the ...rest
operator to pass in all the parameters.
In Node 8+, you can use util.promisify
const promisify = func =>
(...args) =>
new Promise((resolve, reject) =>
func(...args, (err, result) =>
err ? reject(err) : resolve(result))
);
// const delay = promisify((d, cb) => setTimeout(cb, d))
// delay(2000).then(() => console.log('Hi!')) -> Promise resolves after 2s
Takes a variadic function and returns a closure that accepts an array of arguments to map to the inputs of the function.
Use closures and the spread operator (...
) to map the array of arguments to the inputs of the function.
const spreadOver = fn => argsArr => fn(...argsArr);
/*
const arrayMax = spreadOver(Math.max)
arrayMax([1,2,3]) // -> 3
arrayMax([1,2,4]) // -> 4
*/
Calculates the greatest common denominator (gcd) of an array of numbers.
Use Array.reduce()
and the gcd
formula (uses recursion) to calculate the greatest common denominator of an array of numbers.
const arrayGcd = arr =>{
const gcd = (x, y) => !y ? x : gcd(y, x % y);
return arr.reduce((a,b) => gcd(a,b));
}
// arrayGcd([1,2,3,4,5]) -> 1
// arrayGcd([4,8,12]) -> 4
Calculates the lowest common multiple (lcm) of an array of numbers.
Use Array.reduce()
and the lcm
formula (uses recursion) to calculate the lowest common multiple of an array of numbers.
const arrayLcm = arr =>{
const gcd = (x, y) => !y ? x : gcd(y, x % y);
const lcm = (x, y) => (x*y)/gcd(x, y);
return arr.reduce((a,b) => lcm(a,b));
}
// arrayLcm([1,2,3,4,5]) -> 60
// arrayLcm([4,8,12]) -> 24
Returns the maximum value in an array.
Use Math.max()
combined with the spread operator (...
) to get the maximum value in the array.
const arrayMax = arr => Math.max(...arr);
// arrayMax([10, 1, 5]) -> 10
Returns the minimum value in an array.
Use Math.min()
combined with the spread operator (...
) to get the minimum value in the array.
const arrayMin = arr => Math.min(...arr);
// arrayMin([10, 1, 5]) -> 1
Chunks an array into smaller arrays of a specified size.
Use Array.from()
to create a new array, that fits the number of chunks that will be produced.
Use Array.slice()
to map each element of the new array to a chunk the length of size
.
If the original array can't be split evenly, the final chunk will contain the remaining elements.
const chunk = (arr, size) =>
Array.from({length: Math.ceil(arr.length / size)}, (v, i) => arr.slice(i * size, i * size + size));
// chunk([1,2,3,4,5], 2) -> [[1,2],[3,4],[5]]
Removes falsey values from an array.
Use Array.filter()
to filter out falsey values (false
, null
, 0
, ""
, undefined
, and NaN
).
const compact = arr => arr.filter(Boolean);
// compact([0, 1, false, 2, '', 3, 'a', 'e'*23, NaN, 's', 34]) -> [ 1, 2, 3, 'a', 's', 34 ]
Counts the occurrences of a value in an array.
Use Array.reduce()
to increment a counter each time you encounter the specific value inside the array.
const countOccurrences = (arr, value) => arr.reduce((a, v) => v === value ? a + 1 : a + 0, 0);
// countOccurrences([1,1,2,1,2,3], 1) -> 3
Deep flattens an array.
Use recursion.
Use Array.concat()
with an empty array ([]
) and the spread operator (...
) to flatten an array.
Recursively flatten each element that is an array.
const deepFlatten = arr => [].concat(...arr.map(v => Array.isArray(v) ? deepFlatten(v) : v));
// deepFlatten([1,[2],[[3],4],5]) -> [1,2,3,4,5]
Returns the difference between two arrays.
Create a Set
from b
, then use Array.filter()
on a
to only keep values not contained in b
.
const difference = (a, b) => { const s = new Set(b); return a.filter(x => !s.has(x)); };
// difference([1,2,3], [1,2,4]) -> [3]
Filters out all values from an array for which the comparator function does not return true
.
Use Array.filter()
and Array.find()
to find the appropriate values.
const differenceWith = (arr, val, comp) => arr.filter(a => !val.find(b => comp(a, b)))
// differenceWith([1, 1.2, 1.5, 3], [1.9, 3], (a,b) => Math.round(a) == Math.round(b)) -> [1, 1.2]
Returns all the distinct values of an array.
Use ES6 Set
and the ...rest
operator to discard all duplicated values.
const distinctValuesOfArray = arr => [...new Set(arr)];
// distinctValuesOfArray([1,2,2,3,4,4,5]) -> [1,2,3,4,5]
Removes elements in an array until the passed function returns true
. Returns the remaining elements in the array.
Loop through the array, using Array.slice()
to drop the first element of the array until the returned value from the function is true
.
Returns the remaining elements.
const dropElements = (arr, func) => {
while (arr.length > 0 && !func(arr[0])) arr = arr.slice(1);
return arr;
};
// dropElements([1, 2, 3, 4], n => n >= 3) -> [3,4]
Returns a new array with n
elements removed from the right.
Use Array.slice()
to slice the remove the specified number of elements from the right.
const dropRight = (arr, n = 1) => arr.slice(0, -n);
//dropRight([1,2,3]) -> [1,2]
//dropRight([1,2,3], 2) -> [1]
//dropRight([1,2,3], 42) -> []
Returns every nth element in an array.
Use Array.filter()
to create a new array that contains every nth element of a given array.
const everyNth = (arr, nth) => arr.filter((e, i) => i % nth === nth - 1);
// everyNth([1,2,3,4,5,6], 2) -> [ 2, 4, 6 ]
Filters out the non-unique values in an array.
Use Array.filter()
for an array containing only the unique values.
const filterNonUnique = arr => arr.filter(i => arr.indexOf(i) === arr.lastIndexOf(i));
// filterNonUnique([1,2,2,3,4,4,5]) -> [1,3,5]
Flattens an array.
Use a new array and concatenate it with the spread input array causing a shallow denesting of any contained arrays.
const flatten = arr => [ ].concat( ...arr );
// flatten([1,[2],3,4]) -> [1,2,3,4]
Flattens an array up to the specified depth.
Use recursion, decrementing depth
by 1 for each level of depth.
Use Array.reduce()
and Array.concat()
to merge elements or arrays.
Base case, for depth
equal to 1
stops recursion.
Omit the second element, depth
to flatten only to a depth of 1
(single flatten).
const flattenDepth = (arr, depth = 1) =>
depth != 1 ? arr.reduce((a, v) => a.concat(Array.isArray(v) ? flattenDepth(v, depth - 1) : v), [])
: arr.reduce((a, v) => a.concat(v), []);
// flattenDepth([1,[2],[[[3],4],5]], 2) -> [1,2,[3],4,5]
Groups the elements of an array based on the given function.
Use Array.map()
to map the values of an array to a function or property name.
Use Array.reduce()
to create an object, where the keys are produced from the mapped results.
const groupBy = (arr, func) =>
arr.map(typeof func === 'function' ? func : val => val[func])
.reduce((acc, val, i) => { acc[val] = (acc[val] || []).concat(arr[i]); return acc; }, {});
// groupBy([6.1, 4.2, 6.3], Math.floor) -> {4: [4.2], 6: [6.1, 6.3]}
// groupBy(['one', 'two', 'three'], 'length') -> {3: ['one', 'two'], 5: ['three']}
Returns the head of a list.
Use arr[0]
to return the first element of the passed array.
const head = arr => arr[0];
// head([1,2,3]) -> 1
Returns all the elements of an array except the last one.
Use arr.slice(0,-1)
to return all but the last element of the array.
const initial = arr => arr.slice(0, -1);
// initial([1,2,3]) -> [1,2]
Initializes a 2D array of given width and height and value.
Use Array.map()
to generate h rows where each is a new array of size w initialize with value. If the value is not provided, default to null
.
const initialize2DArray = (w, h, val = null) => Array(h).fill().map(() => Array(w).fill(val));
// initializeArrayWithRange(2, 2, 0) -> [[0,0], [0,0]]
Initializes an array containing the numbers in the specified range where start
and end
are inclusive.
Use Array((end + 1) - start)
to create an array of the desired length, Array.map()
to fill with the desired values in a range.
You can omit start
to use a default value of 0
.
const initializeArrayWithRange = (end, start = 0) =>
Array.from({ length: (end + 1) - start }).map((v, i) => i + start);
// initializeArrayWithRange(5) -> [0,1,2,3,4,5]
// initializeArrayWithRange(7, 3) -> [3,4,5,6,7]
Initializes and fills an array with the specified values.
Use Array(n)
to create an array of the desired length, fill(v)
to fill it with the desired values.
You can omit value
to use a default value of 0
.
const initializeArrayWithValues = (n, value = 0) => Array(n).fill(value);
// initializeArrayWithValues(5, 2) -> [2,2,2,2,2]
Returns a list of elements that exist in both arrays.
Create a Set
from b
, then use Array.filter()
on a
to only keep values contained in b
.
const intersection = (a, b) => { const s = new Set(b); return a.filter(x => s.has(x)); };
// intersection([1,2,3], [4,3,2]) -> [2,3]
Returns the last element in an array.
Use arr.length - 1
to compute the index of the last element of the given array and returning it.
const last = arr => arr[arr.length - 1];
// last([1,2,3]) -> 3
Maps the values of an array to an object using a function, where the key-value pairs consist of the original value as the key and the mapped value.
Use an anonymous inner function scope to declare an undefined memory space, using closures to store a return value. Use a new Array
to store the array with a map of the function over its data set and a comma operator to return a second step, without needing to move from one context to another (due to closures and order of operations).
const mapObject = (arr, fn) =>
(a => (a = [arr, arr.map(fn)], a[0].reduce( (acc,val,ind) => (acc[val] = a[1][ind], acc), {}) )) ( );
/*
const squareIt = arr => mapObject(arr, a => a*a)
squareIt([1,2,3]) // { 1: 1, 2: 4, 3: 9 }
*/
Returns the nth element of an array.
Use Array.slice()
to get an array containing the nth element at the first place.
If the index is out of bounds, return []
.
Omit the second argument, n
, to get the first element of the array.
const nthElement = (arr, n=0) => (n>0? arr.slice(n,n+1) : arr.slice(n))[0];
// nthElement(['a','b','c'],1) -> 'b'
// nthElement(['a','b','b'],-3) -> 'a'
Picks the key-value pairs corresponding to the given keys from an object.
Use Array.reduce()
to convert the filtered/picked keys back to an object with the corresponding key-value pair if the key exists in the obj.
const pick = (obj, arr) =>
arr.reduce((acc, curr) => (curr in obj && (acc[curr] = obj[curr]), acc), {});
// pick({ 'a': 1, 'b': '2', 'c': 3 }, ['a', 'c']) -> { 'a': 1, 'c': 3 }
Mutates the original array to filter out the values specified.
Use Array.filter()
and Array.includes()
to pull out the values that are not needed.
Use Array.length = 0
to mutate the passed in an array by resetting it's length to zero and Array.push()
to re-populate it with only the pulled values.
(For a snippet that does not mutate the original array see without
)
const pull = (arr, ...args) => {
let argState = Array.isArray(args[0]) ? args[0] : args;
let pulled = arr.filter((v, i) => !argState.includes(v));
arr.length = 0;
pulled.forEach(v => arr.push(v));
};
// let myArray1 = ['a', 'b', 'c', 'a', 'b', 'c'];
// pull(myArray1, 'a', 'c');
// console.log(myArray1) -> [ 'b', 'b' ]
// let myArray2 = ['a', 'b', 'c', 'a', 'b', 'c'];
// pull(myArray2, ['a', 'c']);
// console.log(myArray2) -> [ 'b', 'b' ]
Mutates the original array to filter out the values at the specified indexes.
Use Array.filter()
and Array.includes()
to pull out the values that are not needed.
Use Array.length = 0
to mutate the passed in an array by resetting it's length to zero and Array.push()
to re-populate it with only the pulled values.
Use Array.push()
to keep track of pulled values
const pullAtIndex = (arr, pullArr) => {
let removed = [];
let pulled = arr.map((v, i) => pullArr.includes(i) ? removed.push(v) : v)
.filter((v, i) => !pullArr.includes(i))
arr.length = 0;
pulled.forEach(v => arr.push(v));
return removed;
}
// let myArray = ['a', 'b', 'c', 'd'];
// let pulled = pullAtIndex(myArray, [1, 3]);
// console.log(myArray); -> [ 'a', 'c' ]
// console.log(pulled); -> [ 'b', 'd' ]
Mutates the original array to filter out the values specified. Returns the removed elements.
Use Array.filter()
and Array.includes()
to pull out the values that are not needed.
Use Array.length = 0
to mutate the passed in an array by resetting it's length to zero and Array.push()
to re-populate it with only the pulled values.
Use Array.push()
to keep track of pulled values
const pullAtValue = (arr, pullArr) => {
let removed = [],
pushToRemove = arr.forEach((v, i) => pullArr.includes(v) ? removed.push(v) : v),
mutateTo = arr.filter((v, i) => !pullArr.includes(v));
arr.length = 0;
mutateTo.forEach(v => arr.push(v));
return removed;
}
/*
let myArray = ['a', 'b', 'c', 'd'];
let pulled = pullAtValue(myArray, ['b', 'd']);
console.log(myArray); -> [ 'a', 'c' ]
console.log(pulled); -> [ 'b', 'd' ]
*/
Removes elements from an array for which the given function returns false
.
Use Array.filter()
to find array elements that return truthy values and Array.reduce()
to remove elements using Array.splice()
.
The func
is invoked with three arguments (value, index, array
).
const remove = (arr, func) =>
Array.isArray(arr) ? arr.filter(func).reduce((acc, val) => {
arr.splice(arr.indexOf(val), 1); return acc.concat(val);
}, [])
: [];
// remove([1, 2, 3, 4], n => n % 2 == 0) -> [2, 4]
Returns a random element from an array.
Use Math.random()
to generate a random number, multiply it by length
and round it of to the nearest whole number using Math.floor()
.
This method also works with strings.
const sample = arr => arr[Math.floor(Math.random() * arr.length)];
// sample([3, 7, 9, 11]) -> 9
Randomizes the order of the values of an array.
Use Array.sort()
to reorder elements, using Math.random()
in the comparator.
const shuffle = arr => arr.sort(() => Math.random() - 0.5);
// shuffle([1,2,3]) -> [2,3,1]
Returns an array of elements that appear in both arrays.
Use filter()
to remove values that are not part of values
, determined using includes()
.
const similarity = (arr, values) => arr.filter(v => values.includes(v));
// similarity([1,2,3], [1,2,4]) -> [1,2]
Returns the symmetric difference between two arrays.
Create a Set
from each array, then use Array.filter()
on each of them to only keep values not contained in the other.
const symmetricDifference = (a, b) => {
const sA = new Set(a), sB = new Set(b);
return [...a.filter(x => !sB.has(x)), ...b.filter(x => !sA.has(x))];
}
// symmetricDifference([1,2,3], [1,2,4]) -> [3,4]
Returns all elements in an array except for the first one.
Return arr.slice(1)
if the array's length
is more than 1
, otherwise, return the whole array.
const tail = arr => arr.length > 1 ? arr.slice(1) : arr;
// tail([1,2,3]) -> [2,3]
// tail([1]) -> [1]
Returns an array with n elements removed from the beginning.
Use Array.slice()
to create a slice of the array with n
elements taken from the beginning.
const take = (arr, n = 1) => arr.slice(0, n);
// take([1, 2, 3], 5) -> [1, 2, 3]
// take([1, 2, 3], 0) -> []
Returns an array with n elements removed from the end.
Use Array.slice()
to create a slice of the array with n
elements taken from the end.
const takeRight = (arr, n = 1) => arr.slice(arr.length - n, arr.length);
// takeRight([1, 2, 3], 2) -> [ 2, 3 ]
// takeRight([1, 2, 3]) -> [3]
Returns every element that exists in any of the two arrays once.
Create a Set
with all values of a
and b
and convert to an array.
const union = (a, b) => Array.from(new Set([...a, ...b]));
// union([1,2,3], [4,3,2]) -> [1,2,3,4]
Filters out the elements of an array, that have one of the specified values.
Use Array.filter()
to create an array excluding(using !Array.includes()
) all given values.
(For a snippet that mutates the original array see pull
)
const without = (arr, ...args) => arr.filter(v => !args.includes(v));
// without([2, 1, 2, 3], 1, 2) -> [3]
Creates an array of elements, grouped based on the position in the original arrays.
Use Math.max.apply()
to get the longest array in the arguments.
Creates an array with that length as return value and use Array.from()
with a map-function to create an array of grouped elements.
If lengths of the argument-arrays vary, undefined
is used where no value could be found.
const zip = (...arrays) => {
const maxLength = Math.max(...arrays.map(x => x.length));
return Array.from({length: maxLength}).map((_, i) => {
return Array.from({length: arrays.length}, (_, k) => arrays[k][i]);
})
}
//zip(['a', 'b'], [1, 2], [true, false]); -> [['a', 1, true], ['b', 2, false]]
//zip(['a'], [1, 2], [true, false]); -> [['a', 1, true], [undefined, 2, false]]
Given an array of valid property identifiers and an array of values, return an object associating the properties to the values.
Since an object can have undefined values but not undefined property pointers, the array of properties is used to decide the structure of the resulting object using Array.reduce()
.
const zipObject = ( props, values ) => props.reduce( ( obj, prop, index ) => ( obj[prop] = values[index], obj ), {} )
// zipObject(['a','b','c'], [1,2]) -> {a: 1, b: 2, c: undefined}
// zipObject(['a','b'], [1,2,3]) -> {a: 1, b: 2}
Converts the given array elements into <li>
tags and appends them to the list of the given id.
Use Array.map()
and document.querySelector()
to create a list of html tags.
const arrayToHtmlList = (arr, listID) => arr.map(item => document.querySelector("#"+listID).innerHTML+=`<li>${item}</li>`);
// arrayToHtmlList(['item 1', 'item 2'],'myListID')
Returns true
if the bottom of the page is visible, false
otherwise.
Use scrollY
, scrollHeight
and clientHeight
to determine if the bottom of the page is visible.
const bottomVisible = () =>
document.documentElement.clientHeight + window.scrollY >= (document.documentElement.scrollHeight || document.documentElement.clientHeight);
// bottomVisible() -> true
Returns the current URL.
Use window.location.href
to get current URL.
const currentURL = () => window.location.href;
// currentUrl() -> 'https://google.com'
Detects wether the website is being opened in a mobile device or a desktop/laptop.
Use a regular expression to test the navigator.userAgent
property to figure out if the device is a mobile device or a desktop/laptop.
const detectDeviceType = () => /Android|webOS|iPhone|iPad|iPod|BlackBerry|IEMobile|Opera Mini/i.test(navigator.userAgent) ? "Mobile" : "Desktop";
// detectDeviceType() -> "Mobile"
// detectDeviceType() -> "Desktop"
Returns true
if the element specified is visible in the viewport, false
otherwise.
Use Element.getBoundingClientRect()
and the window.inner(Width|Height)
values
to determine if a given element is visible in the viewport.
Omit the second argument to determine if the element is entirely visible, or specify true
to determine if
it is partially visible.
const elementIsVisibleInViewport = (el, partiallyVisible = false) => {
const { top, left, bottom, right } = el.getBoundingClientRect();
const { innerHeight, innerWidth } = window;
return partiallyVisible
? ((top > 0 && top < innerHeight) || (bottom > 0 && bottom < innerHeight)) &&
((left > 0 && left < innerWidth) || (right > 0 && right < innerWidth))
: top >= 0 && left >= 0 && bottom <= innerHeight && right <= innerWidth;
};
// e.g. 100x100 viewport and a 10x10px element at position {top: -1, left: 0, bottom: 9, right: 10}
// elementIsVisibleInViewport(el) -> false (not fully visible)
// elementIsVisibleInViewport(el, true) -> true (partially visible)
Returns the scroll position of the current page.
Use pageXOffset
and pageYOffset
if they are defined, otherwise scrollLeft
and scrollTop
.
You can omit el
to use a default value of window
.
const getScrollPosition = (el = window) =>
({x: (el.pageXOffset !== undefined) ? el.pageXOffset : el.scrollLeft,
y: (el.pageYOffset !== undefined) ? el.pageYOffset : el.scrollTop});
// getScrollPosition() -> {x: 0, y: 200}
Returns an object containing the parameters of the current URL.
Use match()
with an appropriate regular expression to get all key-value pairs, Array.reduce()
to map and combine them into a single object.
Pass location.search
as the argument to apply to the current url
.
const getURLParameters = url =>
url.match(/([^?=&]+)(=([^&]*))/g).reduce(
(a, v) => (a[v.slice(0, v.indexOf('='))] = v.slice(v.indexOf('=') + 1), a), {}
);
// getURLParameters('http://url.com/page?name=Adam&surname=Smith') -> {name: 'Adam', surname: 'Smith'}
Redirects the page to HTTPS if its currently in HTTP. Also, pressing the back button doesn't take it back to the HTTP page as its replaced in the history.
Use location.protocol
to get the protocol currently being used. If it's not HTTPS, use location.replace()
to replace the existing page with the HTTPS version of the page. Use location.href
to get the full address, split it with String.split()
and remove the protocol part of the URL.
const httpsRedirect = () => {
if(location.protocol !== "https:") location.replace("https://" + location.href.split("//")[1]);
}
Redirects to a specified URL.
Use window.location.href
or window.location.replace()
to redirect to url
.
Pass a second argument to simulate a link click (true
- default) or an HTTP redirect (false
).
const redirect = (url, asLink = true) =>
asLink ? window.location.href = url : window.location.replace(url);
// redirect('https://google.com')
Smooth-scrolls to the top of the page.
Get distance from top using document.documentElement.scrollTop
or document.body.scrollTop
.
Scroll by a fraction of the distance from the top. Use window.requestAnimationFrame()
to animate the scrolling.
const scrollToTop = () => {
const c = document.documentElement.scrollTop || document.body.scrollTop;
if (c > 0) {
window.requestAnimationFrame(scrollToTop);
window.scrollTo(0, c - c / 8);
}
};
// scrollToTop()
Returns the difference (in days) between two dates.
Calculate the difference (in days) between two Date
objects.
const getDaysDiffBetweenDates = (dateInitial, dateFinal) => (dateFinal - dateInitial) / (1000 * 3600 * 24);
// getDaysDiffBetweenDates(new Date("2017-12-13"), new Date("2017-12-22")) -> 9
Converts a JSON object to a date.
Use Date()
, to convert dates in JSON format to readable format (dd/mm/yyyy
).
const JSONToDate = arr => {
const dt = new Date(parseInt(arr.toString().substr(6)));
return `${ dt.getDate() }/${ dt.getMonth() + 1 }/${ dt.getFullYear() }`
};
// JSONToDate(/Date(1489525200000)/) -> "14/3/2017"
Converts a date from American format to English format.
Use Date.toISOString()
, split('T')
and replace()
to convert a date from American format to the English format.
Throws an error if the passed time cannot be converted to a date.
const toEnglishDate = (time) =>
{try{return new Date(time).toISOString().split('T')[0].replace(/-/g, '/')}catch(e){return}};
// toEnglishDate('09/21/2010') -> '21/09/2010'
Chains asynchronous functions.
Loop through an array of functions containing asynchronous events, calling next
when each asynchronous event has completed.
const chainAsync = fns => { let curr = 0; const next = () => fns[curr++](next); next(); };
/*
chainAsync([
next => { console.log('0 seconds'); setTimeout(next, 1000); },
next => { console.log('1 second'); setTimeout(next, 1000); },
next => { console.log('2 seconds'); }
])
*/
Performs right-to-left function composition.
Use Array.reduce()
to perform right-to-left function composition.
The last (rightmost) function can accept one or more arguments; the remaining functions must be unary.
const compose = (...fns) => fns.reduce((f, g) => (...args) => f(g(...args)));
/*
const add5 = x => x + 5
const multiply = (x, y) => x * y
const multiplyAndAdd5 = compose(add5, multiply)
multiplyAndAdd5(5, 2) -> 15
*/
Curries a function.
Use recursion.
If the number of provided arguments (args
) is sufficient, call the passed function fn
.
Otherwise, return a curried function fn
that expects the rest of the arguments.
If you want to curry a function that accepts a variable number of arguments (a variadic function, e.g. Math.min()
), you can optionally pass the number of arguments to the second parameter arity
.
const curry = (fn, arity = fn.length, ...args) =>
arity <= args.length
? fn(...args)
: curry.bind(null, fn, arity, ...args);
// curry(Math.pow)(2)(10) -> 1024
// curry(Math.min, 3)(10)(50)(2) -> 2
Logs the name of a function.
Use console.debug()
and the name
property of the passed method to log the method's name to the debug
channel of the console.
const functionName = fn => (console.debug(fn.name), fn);
// functionName(Math.max) -> max (logged in debug channel of console)
Performs left-to-right function composition.
Use Array.reduce()
with the spread operator (...
) to perform left-to-right function composition.
The first (leftmost) function can accept one or more arguments; the remaining functions must be unary.
const pipeFunctions = (...fns) => fns.reduce((f, g) => (...args) => g(f(...args)));
/*
const add5 = x => x + 5
const multiply = (x, y) => x * y
const multiplyAndAdd5 = pipeFunctions(multiply, add5)
multiplyAndAdd5(5, 2) -> 15
*/
Runs an array of promises in series.
Use Array.reduce()
to create a promise chain, where each promise returns the next promise when resolved.
const runPromisesInSeries = ps => ps.reduce((p, next) => p.then(next), Promise.resolve());
// const delay = (d) => new Promise(r => setTimeout(r, d))
// runPromisesInSeries([() => delay(1000), () => delay(2000)]) -> executes each promise sequentially, taking a total of 3 seconds to complete
Delays the execution of an asynchronous function.
Delay executing part of an async
function, by putting it to sleep, returning a Promise
.
const sleep = ms => new Promise(resolve => setTimeout(resolve, ms));
/*
async function sleepyWork() {
console.log('I\'m going to sleep for 1 second.');
await sleep(1000);
console.log('I woke up after 1 second.');
}
*/
Negates a predicate function.
Take a predicate function and apply not
to it with its arguments.
const negate = func => (...args) => !func(...args);
// filter([1, 2, 3, 4, 5, 6], negate(isEven)) -> [1, 3, 5]
// negate(isOdd)(1) -> false
Returns the average of an array of numbers.
Use Array.reduce()
to add each value to an accumulator, initialized with a value of 0
, divide by the length
of the array.
const arrayAverage = arr => arr.reduce((acc, val) => acc + val, 0) / arr.length;
// arrayAverage([1,2,3]) -> 2
Returns the sum of an array of numbers.
Use Array.reduce()
to add each value to an accumulator, initialized with a value of 0
.
const arraySum = arr => arr.reduce((acc, val) => acc + val, 0);
// arraySum([1,2,3,4]) -> 10
Clamps num
within the inclusive lower
and upper
bounds.
If lower
is greater than upper
, swap them.
If num
falls within the range, return num
.
Otherwise, return the nearest number in the range.
const clampNumber = (num, lower, upper) => {
if(lower > upper) upper = [lower, lower = upper][0];
return (num>=lower && num<=upper) ? num : ((num < lower) ? lower : upper)
}
// clampNumber(2, 3, 5) -> 3
// clampNumber(1, -1, -5) -> -1
// clampNumber(3, 2, 4) -> 3
Applies the Collatz algorithm.
If n
is even, return n/2
. Otherwise, return 3n+1
.
const collatz = n => (n % 2 == 0) ? (n / 2) : (3 * n + 1);
// collatz(8) --> 4
// collatz(5) --> 16
Converts a number to an array of digits.
Convert the number to a string, using spread operators in ES6([...string]
) build an array.
Use Array.map()
and parseInt()
to transform each value to an integer.
const digitize = n => [...''+n].map(i => parseInt(i));
// digitize(2334) -> [2, 3, 3, 4]
Returns the distance between two points.
Use Math.hypot()
to calculate the Euclidean distance between two points.
const distance = (x0, y0, x1, y1) => Math.hypot(x1 - x0, y1 - y0);
// distance(1,1, 2,3) -> 2.23606797749979
Calculates the factorial of a number.
Use recursion.
If n
is less than or equal to 1
, return 1
.
Otherwise, return the product of n
and the factorial of n - 1
.
Throws an exception if n
is a negative number.
const factorial = n =>
n < 0 ? (() => { throw new TypeError('Negative numbers are not allowed!') })()
: n <= 1 ? 1 : n * factorial(n - 1);
// factorial(6) -> 720
Generates an array, containing the Fibonacci sequence, up until the nth term.
Create an empty array of the specific length, initializing the first two values (0
and 1
).
Use Array.reduce()
to add values into the array, using the sum of the last two values, except for the first two.
const fibonacci = n =>
Array.from({ length: n}).reduce((acc, val, i) => acc.concat(i > 1 ? acc[i - 1] + acc[i - 2] : i), []);
// fibonacci(5) -> [0,1,1,2,3]
Returns the number of fibonnacci numbers up to num
(0
and num
inclusive).
Use a mathematical formula to calculate the number of fibonacci numbers until num
.
const fibonacciCountUntilNum = num =>
Math.ceil(Math.log(num * Math.sqrt(5) + 1/2) / Math.log((Math.sqrt(5)+1)/2));
// fibonacciCountUntilNum(10) -> 7
Generates an array, containing the Fibonacci sequence, up until the nth term.
Create an empty array of the specific length, initializing the first two values (0
and 1
).
Use Array.reduce()
to add values into the array, using the sum of the last two values, except for the first two.
Uses a mathematical formula to calculate the length of the array required.
const fibonacciUntilNum = num => {
let n = Math.ceil(Math.log(num * Math.sqrt(5) + 1/2) / Math.log((Math.sqrt(5)+1)/2));
return Array.from({ length: n}).reduce((acc, val, i) => acc.concat(i > 1 ? acc[i - 1] + acc[i - 2] : i), []);
}
// fibonacciUntilNum(15) -> [0,1,1,2,3,5,8,13]
Calculates the greatest common divisor between two numbers.
Use recursion.
Base case is when y
equals 0
. In this case, return x
.
Otherwise, return the GCD of y
and the remainder of the division x/y
.
const gcd = (x, y) => !y ? x : gcd(y, x % y);
// gcd (8, 36) -> 4
Calculates the Hamming distance between two values.
Use XOR operator (^
) to find the bit difference between the two numbers, convert to a binary string using toString(2)
.
Count and return the number of 1
s in the string, using match(/1/g)
.
const hammingDistance = (num1, num2) =>
((num1 ^ num2).toString(2).match(/1/g) || '').length;
// hammingDistance(2,3) -> 1
Checks if the given number falls within the given range.
Use arithmetic comparison to check if the given number is in the specified range.
If the second parameter, end
, is not specified, the range is considered to be from 0
to start
.
const inRange = (n, start, end=null) => {
if(end && start > end) end = [start, start=end][0];
return (end == null) ? (n>=0 && n<start) : (n>=start && n<end);
}
// inRange(3, 2, 5) -> true
// inRange(3, 4) -> true
// inRange(2, 3, 5) -> false
// inrange(3, 2) -> false
Checks if the given number is an Armstrong number or not.
Convert the given number into an array of digits. Use Math.pow()
to get the appropriate power for each digit and sum them up. If the sum is equal to the number itself, return true
otherwise false
.
const isArmstrongNumber = digits =>
( arr => arr.reduce( ( a, d ) => a + Math.pow( parseInt( d ), arr.length ), 0 ) == digits ? true : false )( ( digits+'' ).split( '' ) );
// isArmstrongNumber(1634) -> true
// isArmstrongNumber(371) -> true
// isArmstrongNumber(56) -> false
Checks if the first numeric argument is divisible by the second one.
Use the modulo operator (%
) to check if the remainder is equal to 0
.
const isDivisible = (dividend, divisor) => dividend % divisor === 0;
// isDivisible(6,3) -> true
Returns true
if the given number is even, false
otherwise.
Checks whether a number is odd or even using the modulo (%
) operator.
Returns true
if the number is even, false
if the number is odd.
const isEven = num => num % 2 === 0;
// isEven(3) -> false
Checks if the provided integer is a prime number.
Check numbers from 2
to the square root of the given number.
Return false
if any of them divides the given number, else return true
, unless the number is less than 2
.
const isPrime = num => {
const boundary = Math.floor(Math.sqrt(num));
for (var i = 2; i * i <= boundary; i++) if (num % i == 0) return false;
return num >= 2;
};
// isPrime(11) -> true
// isPrime(12) -> false
Returns the least common multiple of two numbers.
Use the greatest common divisor (GCD) formula and Math.abs()
to determine the least common multiple.
The GCD formula uses recursion.
const lcm = (x,y) => {
const gcd = (x, y) => !y ? x : gcd(y, x % y);
return Math.abs(x*y)/(gcd(x,y));
};
// lcm(12,7) -> 84
Returns the median of an array of numbers.
Find the middle of the array, use Array.sort()
to sort the values.
Return the number at the midpoint if length
is odd, otherwise the average of the two middle numbers.
const median = arr => {
const mid = Math.floor(arr.length / 2), nums = [...arr].sort((a, b) => a - b);
return arr.length % 2 !== 0 ? nums[mid] : (nums[mid - 1] + nums[mid]) / 2;
};
// median([5,6,50,1,-5]) -> 5
// median([0,10,-2,7]) -> 3.5
Returns true
if the given string is a palindrome, false
otherwise.
Convert string toLowerCase()
and use replace()
to remove non-alphanumeric characters from it.
Then, split('')
into individual characters, reverse()
, join('')
and compare to the original, unreversed string, after converting it tolowerCase()
.
const palindrome = str => {
const s = str.toLowerCase().replace(/[\W_]/g,'');
return s === s.split('').reverse().join('');
}
// palindrome('taco cat') -> true
Uses the percentile formula to calculate how many numbers in the given array are less or equal to the given value.
Use Array.reduce()
to calculate how many numbers are below the value and how many are the same value and apply the percentile formula.
const percentile = (arr, val) =>
100 * arr.reduce((acc,v) => acc + (v < val ? 1 : 0) + (v === val ? 0.5 : 0), 0) / arr.length;
// percentile([1,2,3,4,5,6,7,8,9,10], 6) -> 55
Returns the powerset of a given array of numbers.
Use Array.reduce()
combined with Array.map()
to iterate over elements and combine into an array containing all combinations.
const powerset = arr =>
arr.reduce((a, v) => a.concat(a.map(r => [v].concat(r))), [[]]);
// powerset([1,2]) -> [[], [1], [2], [2,1]]
Generates primes up to a given number, using the Sieve of Eratosthenes.
Generate an array from 2
to the given number. Use Array.filter()
to filter out the values divisible by any number from 2
to the square root of the provided number.
const primes = num => {
let arr = Array.from({length:num-1}).map((x,i)=> i+2),
sqroot = Math.floor(Math.sqrt(num)),
numsTillSqroot = Array.from({length:sqroot-1}).map((x,i)=> i+2);
numsTillSqroot.forEach(x => arr = arr.filter(y => ((y%x)!==0)||(y==x)));
return arr;
}
// primes(10) -> [2,3,5,7]
Returns a random integer in the specified range.
Use Math.random()
to generate a random number and map it to the desired range, using Math.floor()
to make it an integer.
const randomIntegerInRange = (min, max) => Math.floor(Math.random() * (max - min + 1)) + min;
// randomIntegerInRange(0, 5) -> 2
Returns a random number in the specified range.
Use Math.random()
to generate a random value, map it to the desired range using multiplication.
const randomNumberInRange = (min, max) => Math.random() * (max - min) + min;
// randomNumberInRange(2,10) -> 6.0211363285087005
Rounds a number to a specified amount of digits.
Use Math.round()
and template literals to round the number to the specified number of digits.
Omit the second argument, decimals
to round to an integer.
const round = (n, decimals=0) => Number(`${Math.round(`${n}e${decimals}`)}e-${decimals}`);
// round(1.005, 2) -> 1.01
Returns the standard deviation of an array of numbers.
Use Array.reduce()
to calculate the mean, variance and the sum of the variance of the values, the variance of the values, then
determine the standard deviation.
You can omit the second argument to get the sample standard deviation or set it to true
to get the population standard deviation.
const standardDeviation = (arr, usePopulation = false) => {
const mean = arr.reduce((acc, val) => acc + val, 0) / arr.length;
return Math.sqrt(
arr.reduce((acc, val) => acc.concat(Math.pow(val - mean, 2)), [])
.reduce((acc, val) => acc + val, 0) / (arr.length - (usePopulation ? 0 : 1))
);
};
// standardDeviation([10,2,38,23,38,23,21]) -> 13.284434142114991 (sample)
// standardDeviation([10,2,38,23,38,23,21], true) -> 12.29899614287479 (population)
Performs speech synthesis (experimental).
Use SpeechSynthesisUtterance.voice
and window.speechSynthesis.getVoices()
to convert a message to speech.
Use window.speechSynthesis.speak()
to play the message.
Learn more about the SpeechSynthesisUtterance interface of the Web Speech API.
const speechSynthesis = message => {
const msg = new SpeechSynthesisUtterance(message);
msg.voice = window.speechSynthesis.getVoices()[0];
window.speechSynthesis.speak(msg);
};
// speechSynthesis('Hello, World') -> plays the message
Writes a JSON object to a file.
Use fs.writeFile()
, template literals and JSON.stringify()
to write a json
object to a .json
file.
const fs = require('fs');
const JSONToFile = (obj, filename) => fs.writeFile(`${filename}.json`, JSON.stringify(obj, null, 2))
// JSONToFile({test: "is passed"}, 'testJsonFile') -> writes the object to 'testJsonFile.json'
Returns an array of lines from the specified file.
Use readFileSync
function in fs
node package to create a Buffer
from a file.
convert buffer to string using toString(encoding)
function.
creating an array from contents of file by split
ing file content line by line (each \n
).
const fs = require('fs');
const readFileLines = filename => fs.readFileSync(filename).toString('UTF8').split('\n');
/*
contents of test.txt :
line1
line2
line3
___________________________
let arr = readFileLines('test.txt')
console.log(arr) // -> ['line1', 'line2', 'line3']
*/
Removes any properties except the ones specified from a JSON object.
Use Object.keys()
method to loop over given JSON object and deleting keys that are not include
d in given array.
Also if you give it a special key (childIndicator
) it will search deeply inside it to apply function to inner objects too.
const cleanObj = (obj, keysToKeep = [], childIndicator) => {
Object.keys(obj).forEach(key => {
if (key === childIndicator) {
cleanObj(obj[key], keysToKeep, childIndicator);
} else if (!keysToKeep.includes(key)) {
delete obj[key];
}
})
}
/*
const testObj = {a: 1, b: 2, children: {a: 1, b: 2}}
cleanObj(testObj, ["a"],"children")
console.log(testObj)// { a: 1, children : { a: 1}}
*/
Creates an object from the given key-value pairs.
Use Array.reduce()
to create and combine key-value pairs.
const objectFromPairs = arr => arr.reduce((a, v) => (a[v[0]] = v[1], a), {});
// objectFromPairs([['a',1],['b',2]]) -> {a: 1, b: 2}
Creates an array of key-value pair arrays from an object.
Use Object.keys()
and Array.map()
to iterate over the object's keys and produce an array with key-value pairs.
const objectToPairs = obj => Object.keys(obj).map(k => [k, obj[k]]);
// objectToPairs({a: 1, b: 2}) -> [['a',1],['b',2]])
Returns a sorted array of objects ordered by properties and orders.
Uses a custom implementation of sort, that reduces the props array argument with a default value of 0, it uses destructuring to swap the properties position depending on the order passed. If no orders array is passed it sort by 'asc' by default.
const orderBy = (arr, props, orders) =>
arr.sort((a, b) =>
props.reduce((acc, prop, i) => {
if (acc === 0) {
const [p1, p2] = orders && orders[i] === 'desc' ? [b[prop], a[prop]] : [a[prop], b[prop]];
acc = p1 > p2 ? 1 : p1 < p2 ? -1 : 0;
}
return acc;
}, 0)
);
/*
const users = [{ 'name': 'fred', 'age': 48 },{ 'name': 'barney', 'age': 36 },
{ 'name': 'fred', 'age': 40 },{ 'name': 'barney', 'age': 34 }];
orderby(users, ['name', 'age'], ['asc', 'desc']) -> [{name: 'barney', age: 36}, {name: 'barney', age: 34}, {name: 'fred', age: 48}, {name: 'fred', age: 40}]
orderby(users, ['name', 'age']) -> [{name: 'barney', age: 34}, {name: 'barney', age: 36}, {name: 'fred', age: 40}, {name: 'fred', age: 48}]
*/
Retrieve a property that indicated by the selector from an object.
If the property does not exists returns undefined
.
const select = (from, selector) =>
selector.split('.').reduce((prev, cur) => prev && prev[cur], from);
// const obj = {selector: {to: {val: 'val to select'}}};
// select(obj, 'selector.to.val'); -> 'val to select'
Creates a shallow clone of an object.
Use Object.assign()
and an empty object ({}
) to create a shallow clone of the original.
const shallowClone = obj => Object.assign({}, obj);
/*
const a = { x: true, y: 1 };
const b = shallowClone(a);
a === b -> false
*/
Checks if the predicate (second argument) is truthy on all elements of a collection (first argument).
Use Array.every()
to check if each passed object has the specified property and if it returns a truthy value.
const truthCheckCollection = (collection, pre) => (collection.every(obj => obj[pre]));
// truthCheckCollection([{"user": "Tinky-Winky", "sex": "male"}, {"user": "Dipsy", "sex": "male"}], "sex") -> true
Generates all anagrams of a string (contains duplicates).
Use recursion.
For each letter in the given string, create all the partial anagrams for the rest of its letters.
Use Array.map()
to combine the letter with each partial anagram, then Array.reduce()
to combine all anagrams in one array.
Base cases are for string length
equal to 2
or 1
.
const anagrams = str => {
if (str.length <= 2) return str.length === 2 ? [str, str[1] + str[0]] : [str];
return str.split('').reduce((acc, letter, i) =>
acc.concat(anagrams(str.slice(0, i) + str.slice(i + 1)).map(val => letter + val)), []);
};
// anagrams('abc') -> ['abc','acb','bac','bca','cab','cba']
Capitalizes the first letter of a string.
Use destructuring and toUpperCase()
to capitalize first letter, ...rest
to get array of characters after first letter and then Array.join('')
to make it a string again.
Omit the lowerRest
parameter to keep the rest of the string intact, or set it to true
to convert to lowercase.
const capitalize = ([first,...rest], lowerRest = false) =>
first.toUpperCase() + (lowerRest ? rest.join('').toLowerCase() : rest.join(''));
// capitalize('myName') -> 'MyName'
// capitalize('myName', true) -> 'Myname'
Capitalizes the first letter of every word in a string.
Use replace()
to match the first character of each word and toUpperCase()
to capitalize it.
const capitalizeEveryWord = str => str.replace(/\b[a-z]/g, char => char.toUpperCase());
// capitalizeEveryWord('hello world!') -> 'Hello World!'
Retuns number
of vowels in provided string.
Use a regular expression to count the number of vowels (A, E, I, O, U)
in a string
.
const countVowels = str => (str.match(/[aeiou]/ig) || []).length;
// countVowels('foobar') -> 3
// countVowels('gym') -> 0
Escapes a string to use in a regular expression.
Use replace()
to escape special characters.
const escapeRegExp = str => str.replace(/[.*+?^${}()|[\]\\]/g, '\\$&');
// escapeRegExp('(test)') -> \\(test\\)
Converts a string from camelcase.
Use replace()
to remove underscores, hyphens, and spaces and convert words to camelcase.
Omit the second argument to use a default separator of _
.
const fromCamelCase = (str, separator = '_') =>
str.replace(/([a-z\d])([A-Z])/g, '$1' + separator + '$2')
.replace(/([A-Z]+)([A-Z][a-z\d]+)/g, '$1' + separator + '$2').toLowerCase();
// fromCamelCase('someDatabaseFieldName', ' ') -> 'some database field name'
// fromCamelCase('someLabelThatNeedsToBeCamelized', '-') -> 'some-label-that-needs-to-be-camelized'
// fromCamelCase('someJavascriptProperty', '_') -> 'some_javascript_property'
Repeats a string n times using String.repeat()
If no string is provided the default is ""
and the default number of times is 2.
const repeatString = (str="",num=2) => {
return num >= 0 ? str.repeat(num) : str;
}
// repeatString("abc",3) -> 'abcabcabc'
// repeatString("abc") -> 'abcabc'
Reverses a string.
Use split('')
and Array.reverse()
to reverse the order of the characters in the string.
Combine characters to get a string using join('')
.
const reverseString = str => str.split('').reverse().join('');
// reverseString('foobar') -> 'raboof'
Alphabetically sorts the characters in a string.
Split the string using split('')
, Array.sort()
utilizing localeCompare()
, recombine using join('')
.
const sortCharactersInString = str =>
str.split('').sort((a, b) => a.localeCompare(b)).join('');
// sortCharactersInString('cabbage') -> 'aabbceg'
Converts a string to camelcase.
Break the string into words and combine them capitalizing the first letter of each word. For more detailed explanation of this Regex, visit this Site.
const toCamelCase = str => {
let s = str && str.match(/[A-Z]{2,}(?=[A-Z][a-z]+[0-9]*|\b)|[A-Z]?[a-z]+[0-9]*|[A-Z]|[0-9]+/g)
.map(x => x.slice(0,1).toUpperCase() + x.slice(1).toLowerCase())
.join('');
return s.slice(0,1).toLowerCase() + s.slice(1)
}
// toCamelCase("some_database_field_name") -> 'someDatabaseFieldName'
// toCamelCase("Some label that needs to be camelized") -> 'someLabelThatNeedsToBeCamelized'
// toCamelCase("some-javascript-property") -> 'someJavascriptProperty'
// toCamelCase("some-mixed_string with spaces_underscores-and-hyphens") -> 'someMixedStringWithSpacesUnderscoresAndHyphens'
Converts a string to kebab case.
Break the string into words and combine them using -
as a separator.
For more detailed explanation of this Regex, visit this Site.
const toKebabCase = str =>
str && str.match(/[A-Z]{2,}(?=[A-Z][a-z]+[0-9]*|\b)|[A-Z]?[a-z]+[0-9]*|[A-Z]|[0-9]+/g)
.map(x => x.toLowerCase())
.join('-');
// toKebabCase("camelCase") -> 'camel-case'
// toKebabCase("some text") -> 'some-text'
// toKebabCase("some-mixed_string With spaces_underscores-and-hyphens") -> 'some-mixed-string-with-spaces-underscores-and-hyphens'
// toKebabCase("AllThe-small Things") -> "all-the-small-things"
// toKebabCase('IAmListeningToFMWhileLoadingDifferentURLOnMyBrowserAndAlsoEditingSomeXMLAndHTML') -> "i-am-listening-to-fm-while-loading-different-url-on-my-browser-and-also-editing-xml-and-html"
Converts a string to snake case.
Break the string into words and combine them using _
as a separator.
For more detailed explanation of this Regex, visit this Site.
const toSnakeCase = str =>{
str && str.match(/[A-Z]{2,}(?=[A-Z][a-z]+[0-9]*|\b)|[A-Z]?[a-z]+[0-9]*|[A-Z]|[0-9]+/g)
.map(x => x.toLowerCase())
.join('_');
// toSnakeCase("camelCase") -> 'camel_case'
// toSnakeCase("some text") -> 'some_text'
// toSnakeCase("some-javascript-property") -> 'some_javascript_property'
// toSnakeCase("some-mixed_string With spaces_underscores-and-hyphens") -> 'some_mixed_string_with_spaces_underscores_and_hyphens'
// toKebabCase("AllThe-small Things") -> "all_the_smal_things"
// toKebabCase('IAmListeningToFMWhileLoadingDifferentURLOnMyBrowserAndAlsoEditingSomeXMLAndHTML') -> "i_am_listening_to_fm_while_loading_different_url_on_my_browser_and_also_editing_some_xml_and_html"
Truncates a string up to a specified length.
Determine if the string's length
is greater than num
.
Return the string truncated to the desired length, with ...
appended to the end or the original string.
const truncateString = (str, num) =>
str.length > num ? str.slice(0, num > 3 ? num - 3 : num) + '...' : str;
// truncateString('boomerang', 7) -> 'boom...'
Converts a given string into an array of words.
Use String.split()
with a supplied pattern (defaults to non-alpha as a regex) to convert to an array of strings. Use Array.filter()
to remove any empty strings.
Omit the second argument to use the default regex.
const words = (str, pattern = /[^a-zA-Z-]+/) => str.split(pattern).filter(Boolean);
// words("I love javaScript!!") -> ["I", "love", "javaScript"]
// words("python, javaScript & coffee") -> ["python", "javaScript", "coffee"]
Returns the first non-null/undefined argument.
Use Array.find()
to return the first non null
/undefined
argument.
const coalesce = (...args) => args.find(_ => ![undefined, null].includes(_))
// coalesce(null,undefined,"",NaN, "Waldo") -> ""
Returns a customized coalesce function that returns the first argument that returns true
from the provided argument validation function.
Use Array.find()
to return the first argument that returns true
from the provided argument validation function.
const coalesceFactory = valid => (...args) => args.find(valid);
// const customCoalesce = coalesceFactory(_ => ![null, undefined, "", NaN].includes(_))
// customCoalesce(undefined, null, NaN, "", "Waldo") //-> "Waldo"
Extends a 3-digit color code to a 6-digit color code.
Use Array.map()
, split()
and Array.join()
to join the mapped array for converting a 3-digit RGB notated hexadecimal color-code to the 6-digit form.
String.slice()
is used to remove #
from string start since it's added once.
const extendHex = shortHex =>
'#' + shortHex.slice(shortHex.startsWith('#') ? 1 : 0).split('').map(x => x+x).join('')
// extendHex('#03f') -> '#0033ff'
// extendHex('05a') -> '#0055aa'
Returns the native type of a value.
Returns lowercased constructor name of value, "undefined" or "null" if value is undefined or null
const getType = v =>
v === undefined ? 'undefined' : v === null ? 'null' : v.constructor.name.toLowerCase();
// getType(new Set([1,2,3])) -> "set"
Converts a color code to a rgb()
or rgba()
string if alpha value is provided.
Use bitwise right-shift operator and mask bits with &
(and) operator to convert a hexadecimal color code (with or without prefixed with #
) to a string with the RGB values. If it's 3-digit color code, first convert to 6-digit version. If an alpha value is provided alongside 6-digit hex, give rgba()
string in return.
const hexToRGB = hex => {
let alpha = false, h = hex.slice(hex.startsWith('#') ? 1 : 0);
if (h.length === 3) h = [...h].map(x => x + x).join('');
else if (h.length === 8) alpha = true;
h = parseInt(h, 16);
return 'rgb' + (alpha ? 'a' : '') + '('
+ (h >>> (alpha ? 24 : 16)) + ', '
+ ((h & (alpha ? 0x00ff0000 : 0x00ff00)) >>> (alpha ? 16 : 8)) + ', '
+ ((h & (alpha ? 0x0000ff00 : 0x0000ff)) >>> (alpha ? 8 : 0))
+ (alpha ? `, ${(h & 0x000000ff)}` : '') + ')';
};
// hexToRGB('#27ae60ff') -> 'rgba(39, 174, 96, 255)'
// hexToRGB('27ae60') -> 'rgb(39, 174, 96)'
// hexToRGB('#fff') -> 'rgb(255, 255, 255)'
Checks if the given argument is an array.
Use Array.isArray()
to check if a value is classified as an array.
const isArray = val => !!val && Array.isArray(val);
// isArray(null) -> false
// isArray([1]) -> true
Checks if the given argument is a native boolean element.
Use typeof
to check if a value is classified as a boolean primitive.
const isBoolean = val => typeof val === 'boolean';
// isBoolean(null) -> false
// isBoolean(false) -> true
Checks if the given argument is a function.
Use typeof
to check if a value is classified as a function primitive.
const isFunction = val => val && typeof val === 'function';
// isFunction('x') -> false
// isFunction(x => x) -> true
Checks if the given argument is a number.
Use typeof
to check if a value is classified as a number primitive.
const isNumber = val => typeof val === 'number';
// isNumber('1') -> false
// isNumber(1) -> true
Checks if the given argument is a string.
Use typeof
to check if a value is classified as a string primitive.
const isString = val => typeof val === 'string';
// isString(10) -> false
// isString('10') -> true
Checks if the given argument is a symbol.
Use typeof
to check if a value is classified as a symbol primitive.
const isSymbol = val => typeof val === 'symbol';
// isSymbol('x') -> false
// isSymbol(Symbol('x')) -> true
Generates a random hexadecimal color code.
Use Math.random
to generate a random 24-bit(6x4bits) hexadecimal number. Use bit shifting and then convert it to an hexadecimal String using toString(16)
.
const randomHexColor = () => {
let n = (Math.random()*0xfffff|0).toString(16);
return '#' + (n.length !== 6
? (Math.random()*0xf|0).toString(16) + n : n);
}
// randomHexColorCode() -> "#e34155"
// randomHexColorCode() -> "#fd73a6"
// randomHexColorCode() -> "#4144c6"
Converts the values of RGB components to a color code.
Convert given RGB parameters to hexadecimal string using bitwise left-shift operator (<<
) and toString(16)
, then padStart(6,'0')
to get a 6-digit hexadecimal value.
const RGBToHex = (r, g, b) => ((r << 16) + (g << 8) + b).toString(16).padStart(6, '0');
// RGBToHex(255, 165, 1) -> 'ffa501'
Measures the time taken by a function to execute.
Use console.time()
and console.timeEnd()
to measure the difference between the start and end times to determine how long the callback took to execute.
const timeTaken = callback => {
console.time('timeTaken'); const r = callback();
console.timeEnd('timeTaken'); return r;
};
// timeTaken(() => Math.pow(2, 10)) -> 1024
// (logged): timeTaken: 0.02099609375ms
Use toLocaleString()
to convert a float-point arithmetic to the Decimal mark form. It makes a comma separated string from a number.
const toDecimalMark = num => num.toLocaleString("en-US");
// toDecimalMark(12305030388.9087) -> "12,305,030,388.9087"
Adds an ordinal suffix to a number.
Use the modulo operator (%
) to find values of single and tens digits.
Find which ordinal pattern digits match.
If digit is found in teens pattern, use teens ordinal.
const toOrdinalSuffix = num => {
const int = parseInt(num), digits = [(int % 10), (int % 100)],
ordinals = ['st', 'nd', 'rd', 'th'], oPattern = [1, 2, 3, 4],
tPattern = [11, 12, 13, 14, 15, 16, 17, 18, 19];
return oPattern.includes(digits[0]) && !tPattern.includes(digits[1]) ? int + ordinals[digits[0] - 1] : int + ordinals[3];
};
// toOrdinalSuffix("123") -> "123rd"
Generates a UUID.
Use crypto
API to generate a UUID, compliant with RFC4122 version 4.
const UUIDGenerator = () =>
([1e7] + -1e3 + -4e3 + -8e3 + -1e11).replace(/[018]/g, c =>
(c ^ crypto.getRandomValues(new Uint8Array(1))[0] & 15 >> c / 4).toString(16)
);
// UUIDGenerator() -> '7982fcfe-5721-4632-bede-6000885be57d'
Returns true
if the given value is a number, false
otherwise.
Use !isNaN
in combination with parseFloat()
to check if the argument is a number.
Use isFinite()
to check if the number is finite.
Use Number()
to check if the coercion holds.
const validateNumber = n => !isNaN(parseFloat(n)) && isFinite(n) && Number(n) == n;
// validateNumber('10') -> true
Icons made by Smashicons from www.flaticon.com is licensed by CC 3.0 BY.