Develop Reference

My swap function does not have any effect on my return array

const generateArray = (row, col) => {
let totalCells = row * col
const resultArray = [] // sorted
let subArray = []
let counter = 1
let trackRow = 1
let i = 0
while (i <= totalCells) {
if (counter === 1) subArray.push(trackRow)
else {
subArray.push(subArray[subArray.length - 1] + row)
}
if (subArray.length === col) {
resultArray.push(...subArray)
subArray = []
counter = 1
trackRow++
} else counter++
if (i === totalCells) { // perform swap if necessary
let lastIdx = resultArray.length - 1
let pointer1 = lastIdx
let count = 0
let pointer2 = col - 1
while(pointer1 >= 0) {
count++
if (count > col) {
pointer2 = lastIdx - pointer1 + col - 1
count = 1
}
if (pointer2 < 0 || pointer1 === pointer2 ) break // // pointers overlap and pointer on same row
if (count % 2 === 0) {
console.log('before swap', resultArray[pointer1], resultArray[pointer2]) // swap 16 13
swap(pointer2, pointer1, resultArray)
console.log('after swap', resultArray[pointer1], resultArray[pointer2]) // after swap 13 16
}
pointer2--
pointer1--
}
}
i++
}
return resultArray
}
function swap (a, b, array) {
[array[a], array[b]] = [array[b], array[a]]
}
console.log(
generateArray(4,5).map((x,i)=>`${x}`.padStart(2)+(i!=0&&i%5==4?'\n':',')).join('')
);
the swap function in the second while loop does not affect my return array for the generateArray method, even tho when printing to the console before and after the swap, the values have been perfectly swapped? see console.log 'before swap' and 'after swap'. Am I missing something?
console.log(generateArray1(4, 5))
expected result
[1, 8, 9, 16, 17
2, 7, 10, 15, 18,
3, 6, 11, 14, 19,
4, 5, 12, 13, 20]
actual result
[1, 5, 9, 13, 17,
2, 6, 10, 14, 18,
3, 7, 11, 15, 19,
4, 8, 12, 16, 20]
console.log
before swap 16 13,
after swap 13 16,
before swap 8 5,
after swap 5 8,
before swap 15 14,
after swap 14 15,
before swap 7 6,
after swap 6 7,
before swap 15 14
after swap 14 15,
before swap 7 6,
after swap 6 7,
before swap 16 13,
after swap 13 16,
before swap 8 5,
after swap 5 8

After pointers pass each other break out of loop. You've already swapped all elements of a column once each pointer has gone over half of the rows.
const generateArray = (row, col) => {
let totalCells = row * col
const resultArray = [] // sorted
let subArray = []
let counter = 1
let trackRow = 1
let i = 0
while (i <= totalCells) {
if (counter === 1) subArray.push(trackRow)
else {
subArray.push(subArray[subArray.length - 1] + row)
}
if (subArray.length === col) {
resultArray.push(...subArray)
subArray = []
counter = 1
trackRow++
} else counter++
if (i === totalCells) { // perform swap if necessary
let lastIdx = resultArray.length - 1
let pointer1 = lastIdx
let count = 0
let pointer2 = col - 1
while(pointer1 >= 0) {
count++
if (count > col) {
pointer2 = lastIdx - pointer1 + col - 1
count = 1
}
if (pointer2 < 0 || pointer1 <= pointer2 ) break // // pointers overlap and pointer on same row or pointers have passed each other
if (count % 2 === 0) {
console.log('before swap', resultArray[pointer1], resultArray[pointer2]) // swap 16 13
swap(pointer2, pointer1, resultArray)
console.log('after swap', resultArray[pointer1], resultArray[pointer2]) // after swap 13 16
}
pointer2--
pointer1--
}
}
i++
}
return resultArray
}
function swap (a, b, array) {
[array[a], array[b]] = [array[b], array[a]]
}
console.log(
generateArray(4,5).map((x,i)=>`${x}`.padStart(2)+(i!=0&&i%5==4?'\n':',')).join('')
);

Sorting an increasing number in an array in Javascript

I'm running into a error in stopping the execution when a lower number occurs in the data of an array
Let seat1 = [2, 5, 6, 9, 2, 12, 18];
console should log the values till it gets to 9 since
2 < 5 < 6 < 9
then omit 2 since 9 > 2
then continue from 12 < 18.
let num = [2, 5, 6, 9, 2, 12, 18];
for (let i = 0; i < num.length; i++) {
if ((num[i] + 1) > num[i]) {
console.log(num[i])
} else {
console.log('kindly fix')
}
}

Use Array.reduce() to create a new array without the items that are not larger than the last item in the accumulator (acc) or -Infinity if it's the 1st item:
const num = [2, 5, 6, 9, 2, 3, 12, 18];
const result = num.reduce((acc, n) => {
if(n > (acc[acc.length - 1] || -Infinity)) acc.push(n);
return acc;
}, []);
console.log(result);

simple answer using if and for -
let num = [2, 5, 6, 9, 2 , 3, 12, 16, 9, 18];
let max = 0;
for (let i = 0; i < num.length; i++)
{
if ((i == 0) || (num[i] > max)) {
max = num[i];
console.log (num[i]);
}
}

You could filter the array by storing the last value who is greater than the last value.
var array = [2, 5, 6, 9, 2, 3, 12, 18],
result = array.filter((a => b => a < b && (a = b, true))(-Infinity));
console.log(result)

Store the max value and check num[i] against the current max. If num[i] is bigger, log it and set the new max value. Initial max value should be first num value but smaller so it doesn't fail on the first check.
let num = [2, 5, 6, 9, 2, 12, 18];
let max = num[0] - 1;
for (let i = 0; i < num.length; i++) {
if (num[i] > max) {
console.log(num[i]);
max = num[i];
}
}

let num = [2, 5, 6, 9, 2, 12, 18];
let result = num.sort((a, b) => a - b).filter((elem, pos, arr) => {
return arr.indexOf(elem) == pos;
})
console.log(result)

Minumum distance between two numers in Array using Javascript

I am looking for a better solution for getting minimum distance between 2 elements in an array.
Input: arr[] = {3, 5, 4, 2, 6, 5, 6, 6, 5, 4, 8, 3}, x = 3, y = 6
Output: Minimum distance between 3 and 6 is 4.
I have this Code in JS & it works fine for now.
I am looking for better code for achieving the same.
Thanks!!
<script>
var numbers= ["2", "3", "5","7","1","2","3","4","8"];
var x ="5";
var y ="8";
var firstIndex = numbers.indexOf(x);
var minD = numbers.length;
var x= numbers.forEach(function(item,index){
if((item == x) || (item == y))
{
if((index != firstIndex) && (index-firstIndex < minD))
{
minD = index-firstIndex;
firstIndex = index;
}
else
{
firstIndex = index;
}
}
});
alert(minD);
document.getElementById("demo").innerHTML = minD;
</script>

var xs=array.reduce((arr,el,i)=>(!(el===x)||arr.push(i),arr),[]);
var ys=array.reduce((arr,el,i)=>(!(el===y)||arr.push(i),arr),[]);
var lowest= xs.map(ix=>ys.map(iy=>Math.abs(iy-ix)).sort()[0]).sort()[0];
Im not sure if this is really shorter or better, just another approach...
Ive simply filtered out all x and y positions, then calculated the distance between each of them ( iy-ix) and took the smalles value (.sort()[0])
http://jsbin.com/nolohezape/edit?console

You could keep the indices and optimise the minimum value by testing if the actual difference is smaller.
function getMinDistance(array, left, right) {
var rightIndex, leftIndex, minDistance;
array.forEach(function (a, i) {
if (a === left && (leftIndex === undefined || leftIndex < i)) {
leftIndex = i;
}
if (a === right && leftIndex !== undefined) {
rightIndex = i;
}
if (leftIndex < rightIndex && (minDistance === undefined || minDistance > rightIndex - leftIndex)) {
minDistance = rightIndex - leftIndex;
}
});
return minDistance
}
console.log(getMinDistance(["2", "3", "5", "7", "1", "2", "3", "4", "8"], "5", "8"));
console.log(getMinDistance([3, 5, 4, 2, 6, 5, 6, 6, 5, 4, 8, 3], 3, 6));

function findMin(arr,a,b){
var firstIndex = arr.indexOf(a);
console.log(firstIndex);
var lastIndex = arr.indexOf(b);
console.log(lastIndex);
var minDistance;
if(firstIndex===lastIndex){
minDistance = 1;
}
if(firstIndex<lastIndex){
minDistance = lastIndex-firstIndex;
}
return minDistance;
}
console.log(findMin([1,2,3,4,5,6],1,5));

Assuming the array can be extremely large, I would rather not sort it before iterating, as it is not an efficient strategy.
The below logic scans the array from left-to-right, so in each iteration, the number marked with 👉 is checked against all proceeding numbers, until the best match is found, and then the same happens width the next number, until all possibilities have been calculated and the best (lowest) outcome is saved (minDis).
👉 - - - - - 🔥
[50, 5, 75, 66, 32, 4, 58] // diff between 50 and each number past it (min is 8)
👉 - - - 🔥 -
[50, 5, 75, 66, 32, 4, 58] // diff between 5 and each number past it (min is 1)
👉 🔥 - - -
[50, 5, 75, 66, 32, 4, 58] // diff between 75 and each number past it (min is 9)
...
On each iteration in the recursion the minDis parameter is sent to the deeper level so the local diff of that level (the for loop) is compared against that minDis argument, and if there's a smaller diff, it is then set as the "new" minDis value:
var data = [50, 5, 75, 66, 32, 4, 58]; // assume a very large array
// find the minimum distance between two numbers
function findMinDistance(arr, minDis = Infinity, idx = 0){
for( var numIdx = idx; numIdx < arr.length; numIdx++ ){
var diff = Math.abs(arr[idx] - arr[numIdx+1])
if( diff < minDis ) minDis = diff
// no need to continue scanning, since "0" is the minimum possible
if( minDis === 0 ) return 0
}
// scan from left to right, so each item is compared to the ones past it
return idx < arr.length - 1 && minDis > 0
? findMinDistance(arr, minDis, idx+1)
: minDis
}
console.log(`Min distance is: ${findMinDistance(data)}`)
A non-recursive approach, similar to the above:
var data = [50, 5, 75, 66, 32, 4, 58]; // assume a very large array
// find the minimum distance between two numbers
function findMinDistance(arr){
var minDis = Infinity, idx = 0, numIdx = idx
for( ; numIdx < arr.length; numIdx++ ){
var diff = Math.abs(arr[idx] - arr[numIdx+1])
// if result is lower than minDis, save new minDis
if( diff < minDis )
minDis = diff
// "0" is the minimum so no need to continue
if( minDis === 0 )
return 0
// go to the next number and compare it to all from its right
else if( numIdx == arr.length - 1 )
numIdx = ++idx
}
return minDis
}
console.log(`min distance is: ${findMinDistance(data)}`)

Find the diagonals in an array that is a representation of a 2d array

I converted my 2d array to a 1d array. For example: (Starts at 0, not 1);
00 01 02 03 04
05 06 07 08 09
10 11 12 13 14
15 16 17 18 19
20 21 22 23 24
was converted to a 1d array.
[0, 1, 2, 3, 4.....23, 24].
I am now attempting to create a function that finds every spot that is "connected" or next to a certain element in the array. This includes elements that are diagonal from it. So using the above 2d array, if I want an array of elements that are connected to 0, I expect the function to return the array
[1, 5, 6].
The trouble I am having is finding the diagonals. This is my JS code for the array that should be returned.
var poss = [Number(num+1),Number(num-1),Number(num+col),Number(num-col),Number((num+col) + 1),Number((num+col) - 1),Number((num-col) + 1),Number((num-col) - 1)];
This returns [1, 5, 6, 4].
I have code that excludes negative numbers. However, 4 should not be there.
I realize this is because this is an edge case and it isn't registering as out of bounds because it isn't a negative number. Is there a formula of some sort that will find the elements connected to it diagonally ? Remember I am using a 1d array. This program also run independently of the array size. So this will also have to work for boards that are 4x4 or 5x4. So using the row and num fields is ideal.

I've seemed to have figured it out. At the very least, I've passed all of my test cases. I am sure that this is not the most simply, elegant, or efficient way. More test cases are probably needed. I made sure it is calculated independent of the number of columns and rows. Here is the huge if statement I used.
var x = poss[i]
if((Number(num) % col == 0 && Number(num-1) == Number(x)) ||
(Number(num+1) % col == 0 && Number(num+1) == Number(x)) ||
((Number(num) % col == 0 || Number(num+1) % col == 0) && (Number((num-col) -1) == Number(x))) ||
((Number(num) % col == 0 || Number(num+1) % col == 0) && (Number((num+col) -1) == Number(x))) ||
((Number(num) % col == 0 || Number(num+1) % col == 0) && (Number((num-col) +1) == Number(x))) ||
((Number(num) % col == 0 || Number(num+1) % col == 0) && (Number((num+col) +1) == Number(x))))
{//exclude number from results}
The variable num is the number on the array that you are currently searching neighbors for. Variable x is one of the possible neighbors.
Feel free to post another idea.

This was my solution to this issue, it should be easy to read and understand and I added some comments on it as well.
var cols = 5;
var rows = 5;
function connectedPoints(point) {
var connectedPoints = [];
// First test if the point is on an edge
var topEdge = point/cols < 1;
var leftEdge = point%cols == 0;
var rightEdge = point%cols == cols-1;
var bottomEdge = point/cols >= rows-1;
// Add points that are above the point
if (!topEdge) {
if (!leftEdge) {
connectedPoints.push(returnIfNotNegative(point-cols-1));
}
connectedPoints.push(returnIfNotNegative(point-cols));
if (!rightEdge) {
connectedPoints.push(returnIfNotNegative(point-cols+1));
}
}
// Add points that are to the left or right of the point
if (!leftEdge) {
connectedPoints.push(returnIfNotNegative(point-1));
}
if (!rightEdge) {
connectedPoints.push(returnIfNotNegative(point+1));
}
// Add points that are below the point
if (!bottomEdge) {
if (!leftEdge) {
connectedPoints.push(returnIfNotNegative(point+cols-1));
}
connectedPoints.push(returnIfNotNegative(point+cols));
if (!rightEdge) {
connectedPoints.push(returnIfNotNegative(point+cols+1));
}
}
console.log(connectedPoints);
}
function returnIfNotNegative(point) {
if (point < 0) {
return null;
}
return point;
}
connectedPoints(0);

You can try using position instead of value. This will simplify things.
You can have another function to get position of value.
var arr = [
[00, 01, 02, 03, 04],
[05, 06, 07, 08, 09],
[10, 11, 12, 13, 14],
[15, 16, 17, 18, 19],
[20, 21, 22, 23, 24]
]
function getNeighbours(x, y) {
var result = [];
for (var i = x - 1; i <= x + 1; i++) {
for (var j = y - 1; j <= y + 1; j++) {
if (arr[i] && arr[i][j]) {
if (!(x === i && y === j))
result.push(arr[i][j]);
}
}
}
return result;
}
console.log(getNeighbours(0, 0));
console.log(getNeighbours(3, 3));

When working with the arrays it's important to move as much computation outside the inner loop as possible. My approach was to find the start positions of the left column in each row and then iterating over the column range.
var arr = [
0, 1, 2, 3, 4,
5, 6, 7, 8, 9,
10, 11, 12, 13, 14,
15, 16, 17, 18, 19,
20, 21, 22, 23, 24
]
function getNeighbours(col, row)
{
var w = 5;
var start = (row > 0 ? row * w - w : row * w) + (col > 0 ? col - 1 : col);
var rowSpan = ((row > 0 ? 2 : 1) + (row < (w - 1) ? 1 : 0)) * w;
var colSpan = (col > 0 ? 2 : 1) + (col < (w -1) ? 1 : 0);
var center = col + row * w;
var result = [];
for (var r = start; r < start + rowSpan; r += w)
for (var i = r; i < r + colSpan; i++)
if (!(i === center))
result.push(arr[i]);
return result;
}
console.log(getNeighbours(0,0));
console.log(getNeighbours(3,3));
console.log(getNeighbours(3,4));
console.log(getNeighbours(4,3));
console.log(getNeighbours(4,4));
/*
[1, 5, 6]
[12, 13, 14, 17, 19, 22, 23, 24]
[17, 18, 19, 22, 24]
[13, 14, 18, 23, 24]
[18, 19, 23]
*/

Does JavaScript have a method like "range()" to generate a range within the supplied bounds?

In PHP, you can do...
range(1, 3); // Array(1, 2, 3)
range("A", "C"); // Array("A", "B", "C")
That is, there is a function that lets you get a range of numbers or characters by passing the upper and lower bounds.
Is there anything built-in to JavaScript natively for this? If not, how would I implement it?

Numbers
[...Array(5).keys()];
=> [0, 1, 2, 3, 4]
Character iteration
String.fromCharCode(...[...Array('D'.charCodeAt(0) - 'A'.charCodeAt(0) + 1).keys()].map(i => i + 'A'.charCodeAt(0)));
=> "ABCD"
Iteration
for (const x of Array(5).keys()) {
console.log(x, String.fromCharCode('A'.charCodeAt(0) + x));
}
=> 0,"A" 1,"B" 2,"C" 3,"D" 4,"E"
As functions
function range(size, startAt = 0) {
return [...Array(size).keys()].map(i => i + startAt);
}
function characterRange(startChar, endChar) {
return String.fromCharCode(...range(endChar.charCodeAt(0) -
startChar.charCodeAt(0), startChar.charCodeAt(0)))
}
As typed functions
function range(size:number, startAt:number = 0):ReadonlyArray<number> {
return [...Array(size).keys()].map(i => i + startAt);
}
function characterRange(startChar:string, endChar:string):ReadonlyArray<string> {
return String.fromCharCode(...range(endChar.charCodeAt(0) -
startChar.charCodeAt(0), startChar.charCodeAt(0)))
}
lodash.js _.range() function
_.range(10);
=> [0, 1, 2, 3, 4, 5, 6, 7, 8, 9]
_.range(1, 11);
=> [1, 2, 3, 4, 5, 6, 7, 8, 9, 10]
_.range(0, 30, 5);
=> [0, 5, 10, 15, 20, 25]
_.range(0, -10, -1);
=> [0, -1, -2, -3, -4, -5, -6, -7, -8, -9]
String.fromCharCode(..._.range('A'.charCodeAt(0), 'D'.charCodeAt(0) + 1));
=> "ABCD"
Old non es6 browsers without a library:
Array.apply(null, Array(5)).map(function (_, i) {return i;});
=> [0, 1, 2, 3, 4]
console.log([...Array(5).keys()]);
(ES6 credit to nils petersohn and other commenters)

For numbers you can use ES6 Array.from(), which works in everything these days except IE:
Shorter version:
Array.from({length: 20}, (x, i) => i);
Longer version:
Array.from(new Array(20), (x, i) => i);​​​​​​
which creates an array from 0 to 19 inclusive. This can be further shortened to one of these forms:
Array.from(Array(20).keys());
// or
[...Array(20).keys()];
Lower and upper bounds can be specified too, for example:
Array.from(new Array(20), (x, i) => i + *lowerBound*);
An article describing this in more detail: http://www.2ality.com/2014/05/es6-array-methods.html

My new favorite form (ES2015)
Array(10).fill(1).map((x, y) => x + y)
And if you need a function with a step param:
const range = (start, stop, step = 1) =>
Array(Math.ceil((stop - start) / step)).fill(start).map((x, y) => x + y * step)
Another possible implementation suggested by the MDN docs:
// Sequence generator function
// (commonly referred to as "range", e.g. Clojure, PHP etc)
const range = (start, stop, step) =>
Array.from({ length: (stop - start) / step + 1}, (_, i) => start + (i * step))

Here's my 2 cents:
function range(start, end) {
return Array.apply(0, Array(end - 1))
.map((element, index) => index + start);
}

It works for characters and numbers, going forwards or backwards with an optional step.
var range = function(start, end, step) {
var range = [];
var typeofStart = typeof start;
var typeofEnd = typeof end;
if (step === 0) {
throw TypeError("Step cannot be zero.");
}
if (typeofStart == "undefined" || typeofEnd == "undefined") {
throw TypeError("Must pass start and end arguments.");
} else if (typeofStart != typeofEnd) {
throw TypeError("Start and end arguments must be of same type.");
}
typeof step == "undefined" && (step = 1);
if (end < start) {
step = -step;
}
if (typeofStart == "number") {
while (step > 0 ? end >= start : end <= start) {
range.push(start);
start += step;
}
} else if (typeofStart == "string") {
if (start.length != 1 || end.length != 1) {
throw TypeError("Only strings with one character are supported.");
}
start = start.charCodeAt(0);
end = end.charCodeAt(0);
while (step > 0 ? end >= start : end <= start) {
range.push(String.fromCharCode(start));
start += step;
}
} else {
throw TypeError("Only string and number types are supported");
}
return range;
}
jsFiddle.
If augmenting native types is your thing, then assign it to Array.range.
var range = function(start, end, step) {
var range = [];
var typeofStart = typeof start;
var typeofEnd = typeof end;
if (step === 0) {
throw TypeError("Step cannot be zero.");
}
if (typeofStart == "undefined" || typeofEnd == "undefined") {
throw TypeError("Must pass start and end arguments.");
} else if (typeofStart != typeofEnd) {
throw TypeError("Start and end arguments must be of same type.");
}
typeof step == "undefined" && (step = 1);
if (end < start) {
step = -step;
}
if (typeofStart == "number") {
while (step > 0 ? end >= start : end <= start) {
range.push(start);
start += step;
}
} else if (typeofStart == "string") {
if (start.length != 1 || end.length != 1) {
throw TypeError("Only strings with one character are supported.");
}
start = start.charCodeAt(0);
end = end.charCodeAt(0);
while (step > 0 ? end >= start : end <= start) {
range.push(String.fromCharCode(start));
start += step;
}
} else {
throw TypeError("Only string and number types are supported");
}
return range;
}
console.log(range("A", "Z", 1));
console.log(range("Z", "A", 1));
console.log(range("A", "Z", 3));
console.log(range(0, 25, 1));
console.log(range(0, 25, 5));
console.log(range(20, 5, 5));

Simple range function:
function range(start, stop, step) {
var a = [start], b = start;
while (b < stop) {
a.push(b += step || 1);
}
return a;
}
To incorporate the BigInt data type some check can be included, ensuring that all variables are same typeof start:
function range(start, stop, step) {
var a = [start], b = start;
if (typeof start == 'bigint') {
stop = BigInt(stop)
step = step? BigInt(step): 1n;
} else
step = step || 1;
while (b < stop) {
a.push(b += step);
}
return a;
}
To remove values higher than defined by stop e.g. range(0,5,2) will include 6, which shouldn't be.
function range(start, stop, step) {
var a = [start], b = start;
while (b < stop) {
a.push(b += step || 1);
}
return (b > stop) ? a.slice(0,-1) : a;
}

OK, in JavaScript we don't have a range() function like PHP, so we need to create the function which is quite easy thing, I write couple of one-line functions for you and separate them for Numbers and Alphabets as below:
for Numbers:
function numberRange (start, end) {
return new Array(end - start).fill().map((d, i) => i + start);
}
and call it like:
numberRange(5, 10); //[5, 6, 7, 8, 9]
for Alphabets:
function alphabetRange (start, end) {
return new Array(end.charCodeAt(0) - start.charCodeAt(0)).fill().map((d, i) => String.fromCharCode(i + start.charCodeAt(0)));
}
and call it like:
alphabetRange('c', 'h'); //["c", "d", "e", "f", "g"]

Array.range = function(a, b, step){
var A = [];
if(typeof a == 'number'){
A[0] = a;
step = step || 1;
while(a+step <= b){
A[A.length]= a+= step;
}
}
else {
var s = 'abcdefghijklmnopqrstuvwxyz';
if(a === a.toUpperCase()){
b = b.toUpperCase();
s = s.toUpperCase();
}
s = s.substring(s.indexOf(a), s.indexOf(b)+ 1);
A = s.split('');
}
return A;
}
Array.range(0,10);
// [0,1,2,3,4,5,6,7,8,9,10]
Array.range(-100,100,20);
// [-100,-80,-60,-40,-20,0,20,40,60,80,100]
Array.range('A','F');
// ['A','B','C','D','E','F')
Array.range('m','r');
// ['m','n','o','p','q','r']

https://stackoverflow.com/a/49577331/8784402
With Delta/Step
smallest and one-liner
[...Array(N)].map((_, i) => from + i * step);
Examples and other alternatives
[...Array(10)].map((_, i) => 4 + i * 2);
//=> [4, 6, 8, 10, 12, 14, 16, 18, 20, 22]
Array.from(Array(10)).map((_, i) => 4 + i * 2);
//=> [4, 6, 8, 10, 12, 14, 16, 18, 20, 22]
Array.from(Array(10).keys()).map(i => 4 + i * 2);
//=> [4, 6, 8, 10, 12, 14, 16, 18, 20, 22]
[...Array(10).keys()].map(i => 4 + i * -2);
//=> [4, 2, 0, -2, -4, -6, -8, -10, -12, -14]
Array(10).fill(0).map((_, i) => 4 + i * 2);
//=> [4, 6, 8, 10, 12, 14, 16, 18, 20, 22]
Array(10).fill().map((_, i) => 4 + i * -2);
//=> [4, 2, 0, -2, -4, -6, -8, -10, -12, -14]
Range Function
const range = (from, to, step) =>
[...Array(Math.floor((to - from) / step) + 1)].map((_, i) => from + i * step);
range(0, 9, 2);
//=> [0, 2, 4, 6, 8]
// can also assign range function as static method in Array class (but not recommended )
Array.range = (from, to, step) =>
[...Array(Math.floor((to - from) / step) + 1)].map((_, i) => from + i * step);
Array.range(2, 10, 2);
//=> [2, 4, 6, 8, 10]
Array.range(0, 10, 1);
//=> [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10]
Array.range(2, 10, -1);
//=> []
Array.range(3, 0, -1);
//=> [3, 2, 1, 0]
As Iterators
class Range {
constructor(total = 0, step = 1, from = 0) {
this[Symbol.iterator] = function* () {
for (let i = 0; i < total; yield from + i++ * step) {}
};
}
}
[...new Range(5)]; // Five Elements
//=> [0, 1, 2, 3, 4]
[...new Range(5, 2)]; // Five Elements With Step 2
//=> [0, 2, 4, 6, 8]
[...new Range(5, -2, 10)]; // Five Elements With Step -2 From 10
//=>[10, 8, 6, 4, 2]
[...new Range(5, -2, -10)]; // Five Elements With Step -2 From -10
//=> [-10, -12, -14, -16, -18]
// Also works with for..of loop
for (i of new Range(5, -2, 10)) console.log(i);
// 10 8 6 4 2
As Generators Only
const Range = function* (total = 0, step = 1, from = 0) {
for (let i = 0; i < total; yield from + i++ * step) {}
};
Array.from(Range(5, -2, -10));
//=> [-10, -12, -14, -16, -18]
[...Range(5, -2, -10)]; // Five Elements With Step -2 From -10
//=> [-10, -12, -14, -16, -18]
// Also works with for..of loop
for (i of Range(5, -2, 10)) console.log(i);
// 10 8 6 4 2
// Lazy loaded way
const number0toInf = Range(Infinity);
number0toInf.next().value;
//=> 0
number0toInf.next().value;
//=> 1
// ...
From-To with steps/delta
using iterators
class Range2 {
constructor(to = 0, step = 1, from = 0) {
this[Symbol.iterator] = function* () {
let i = 0,
length = Math.floor((to - from) / step) + 1;
while (i < length) yield from + i++ * step;
};
}
}
[...new Range2(5)]; // First 5 Whole Numbers
//=> [0, 1, 2, 3, 4, 5]
[...new Range2(5, 2)]; // From 0 to 5 with step 2
//=> [0, 2, 4]
[...new Range2(5, -2, 10)]; // From 10 to 5 with step -2
//=> [10, 8, 6]
using Generators
const Range2 = function* (to = 0, step = 1, from = 0) {
let i = 0,
length = Math.floor((to - from) / step) + 1;
while (i < length) yield from + i++ * step;
};
[...Range2(5, -2, 10)]; // From 10 to 5 with step -2
//=> [10, 8, 6]
let even4to10 = Range2(10, 2, 4);
even4to10.next().value;
//=> 4
even4to10.next().value;
//=> 6
even4to10.next().value;
//=> 8
even4to10.next().value;
//=> 10
even4to10.next().value;
//=> undefined
For Typescript
class _Array<T> extends Array<T> {
static range(from: number, to: number, step: number): number[] {
return Array.from(Array(Math.floor((to - from) / step) + 1)).map(
(v, k) => from + k * step
);
}
}
_Array.range(0, 9, 1);
https://stackoverflow.com/a/64599169/8784402
Generate Character List with one-liner
const charList = (a,z,d=1)=>(a=a.charCodeAt(),z=z.charCodeAt(),[...Array(Math.floor((z-a)/d)+1)].map((_,i)=>String.fromCharCode(a+i*d)));
console.log("from A to G", charList('A', 'G'));
console.log("from A to Z with step/delta of 2", charList('A', 'Z', 2));
console.log("reverse order from Z to P", charList('Z', 'P', -1));
console.log("from 0 to 5", charList('0', '5', 1));
console.log("from 9 to 5", charList('9', '5', -1));
console.log("from 0 to 8 with step 2", charList('0', '8', 2));
console.log("from α to ω", charList('α', 'ω'));
console.log("Hindi characters from क to ह", charList('क', 'ह'));
console.log("Russian characters from А to Я", charList('А', 'Я'));
For TypeScript
const charList = (p: string, q: string, d = 1) => {
const a = p.charCodeAt(0),
z = q.charCodeAt(0);
return [...Array(Math.floor((z - a) / d) + 1)].map((_, i) =>
String.fromCharCode(a + i * d)
);
};

var range = (l,r) => new Array(r - l).fill().map((_,k) => k + l);

Handy function to do the trick, run the code snippet below
function range(start, end, step, offset) {
var len = (Math.abs(end - start) + ((offset || 0) * 2)) / (step || 1) + 1;
var direction = start < end ? 1 : -1;
var startingPoint = start - (direction * (offset || 0));
var stepSize = direction * (step || 1);
return Array(len).fill(0).map(function(_, index) {
return startingPoint + (stepSize * index);
});
}
console.log('range(1, 5)=> ' + range(1, 5));
console.log('range(5, 1)=> ' + range(5, 1));
console.log('range(5, 5)=> ' + range(5, 5));
console.log('range(-5, 5)=> ' + range(-5, 5));
console.log('range(-10, 5, 5)=> ' + range(-10, 5, 5));
console.log('range(1, 5, 1, 2)=> ' + range(1, 5, 1, 2));
here is how to use it
range (Start, End, Step=1, Offset=0);
inclusive - forward range(5,10) // [5, 6, 7, 8, 9, 10]
inclusive - backward range(10,5) // [10, 9, 8, 7, 6, 5]
step - backward range(10,2,2) // [10, 8, 6, 4, 2]
exclusive - forward range(5,10,0,-1) // [6, 7, 8, 9] not 5,10 themselves
offset - expand range(5,10,0,1) // [4, 5, 6, 7, 8, 9, 10, 11]
offset - shrink range(5,10,0,-2) // [7, 8]
step - expand range(10,0,2,2) // [12, 10, 8, 6, 4, 2, 0, -2]
hope you find it useful.
And here is how it works.
Basically I'm first calculating the length of the resulting array and create a zero filled array to that length, then fill it with the needed values
(step || 1) => And others like this means use the value of step and if it was not provided use 1 instead
We start by calculating the length of the result array using (Math.abs(end - start) + ((offset || 0) * 2)) / (step || 1) + 1) to put it simpler (difference* offset in both direction/step)
After getting the length, then we create an empty array with initialized values using new Array(length).fill(0); check here
Now we have an array [0,0,0,..] to the length we want. We map over it and return a new array with the values we need by using Array.map(function() {})
var direction = start < end ? 1 : 0; Obviously if start is not smaller than the end we need to move backward. I mean going from 0 to 5 or vice versa
On every iteration, startingPoint + stepSize * index will gives us the value we need

--- UPDATE (Thanks to #lokhmakov for simplification) ---
Another version using ES6 generators ( see great Paolo Moretti answer with ES6 generators ):
const RANGE = (x,y) => Array.from((function*(){
while (x <= y) yield x++;
})());
console.log(RANGE(3,7)); // [ 3, 4, 5, 6, 7 ]
Or, if we only need iterable, then:
const RANGE_ITER = (x,y) => (function*(){
while (x <= y) yield x++;
})();
for (let n of RANGE_ITER(3,7)){
console.log(n);
}
// 3
// 4
// 5
// 6
// 7
--- ORGINAL code was: ---
const RANGE = (a,b) => Array.from((function*(x,y){
while (x <= y) yield x++;
})(a,b));
and
const RANGE_ITER = (a,b) => (function*(x,y){
while (x <= y) yield x++;
})(a,b);

Using Harmony spread operator and arrow functions:
var range = (start, end) => [...Array(end - start + 1)].map((_, i) => start + i);
Example:
range(10, 15);
[ 10, 11, 12, 13, 14, 15 ]

If, on Visual Studio Code, you faced the error:
Type 'IterableIterator' is not an array type or a string type. Use compiler option '--downlevelIteration' to allow iterating of iterators.
Instead of
[...Array(3).keys()]
you can rely on
Array.from(Array(3).keys())
More on downlevelIteration

You can use lodash or Undescore.js range:
var range = require('lodash/range')
range(10)
// -> [ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9 ]
Alternatively, if you only need a consecutive range of integers you can do something like:
Array.apply(undefined, { length: 10 }).map(Number.call, Number)
// -> [ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9 ]
In ES6 range can be implemented with generators:
function* range(start=0, end=null, step=1) {
if (end == null) {
end = start;
start = 0;
}
for (let i=start; i < end; i+=step) {
yield i;
}
}
This implementation saves memory when iterating large sequences, because it doesn't have to materialize all values into an array:
for (let i of range(1, oneZillion)) {
console.log(i);
}

Did some research on some various Range Functions.
Checkout the jsperf comparison of the different ways to do these functions. Certainly not a perfect or exhaustive list, but should help :)
The Winner is...
function range(lowEnd,highEnd){
var arr = [],
c = highEnd - lowEnd + 1;
while ( c-- ) {
arr[c] = highEnd--
}
return arr;
}
range(0,31);
Technically its not the fastest on firefox, but crazy speed difference (imho) on chrome makes up for it.
Also interesting observation is how much faster chrome is with these array functions than firefox. Chrome is at least 4 or 5 times faster.

range(start,end,step): With ES6 Iterators
You only ask for an upper and lower bounds. Here we create one with a step too.
You can easily create range() generator function which can function as an iterator. This means you don't have to pre-generate the entire array.
function * range ( start, end, step = 1 ) {
let state = start;
while ( state < end ) {
yield state;
state += step;
}
return;
};
Now you may want to create something that pre-generates the array from the iterator and returns a list. This is useful for functions that accept an array. For this we can use Array.from()
const generate_array = (start,end,step) =>
Array.from( range(start,end,step) );
Now you can generate a static array easily,
const array1 = generate_array(1,10,2);
const array1 = generate_array(1,7);
But when something desires an iterator (or gives you the option to use an iterator) you can easily create one too.
for ( const i of range(1, Number.MAX_SAFE_INTEGER, 7) ) {
console.log(i)
}
Special Notes
If you use Ramda, they have their own R.range as does Lodash

This may not be the best way. But if you are looking to get a range of numbers in a single line of code. For example 10 - 50
Array(40).fill(undefined).map((n, i) => i + 10)
Where 40 is (end - start) and 10 is the start. This should return [10, 11, ..., 50]

Not implemented yet!
Using the new Number.range proposal (stage 1):
[...Number.range(1, 10)]
//=> [1, 2, 3, 4, 5, 6, 7, 8, 9, 10]

(from, to) => [...Array(to - from)].map((_,i)=> i + from)

An interesting challenge would be to write the shortest function to do this. Recursion to the rescue!
function r(a,b){return a>b?[]:[a].concat(r(++a,b))}
Tends to be slow on large ranges, but luckily quantum computers are just around the corner.
An added bonus is that it's obfuscatory. Because we all know how important it is to hide our code from prying eyes.
To truly and utterly obfuscate the function, do this:
function r(a,b){return (a<b?[a,b].concat(r(++a,--b)):a>b?[]:[a]).sort(function(a,b){return a-b})}

I would code something like this:
function range(start, end) {
return Array(end-start).join(0).split(0).map(function(val, id) {return id+start});
}
range(-4,2);
// [-4,-3,-2,-1,0,1]
range(3,9);
// [3,4,5,6,7,8]
It behaves similarly to Python range:
>>> range(-4,2)
[-4, -3, -2, -1, 0, 1]

My personal favorite:
const range = (start, end) => new Array(end-start+1).fill().map((el, ind) => ind + start);

ES6
Use Array.from (docs here):
const range = (start, stop, step) => Array.from({ length: (stop - start) / step + 1}, (_, i) => start + (i * step));

A rather minimalistic implementation that heavily employs ES6 can be created as follows, drawing particular attention to the Array.from() static method:
const getRange = (start, stop) => Array.from(
new Array((stop - start) + 1),
(_, i) => i + start
);

The standard Javascript doesn't have a built-in function to generate ranges. Several javascript frameworks add support for such features, or as others have pointed out you can always roll your own.
If you'd like to double-check, the definitive resource is the ECMA-262 Standard.

Though this is not from PHP, but an imitation of range from Python.
function range(start, end) {
var total = [];
if (!end) {
end = start;
start = 0;
}
for (var i = start; i < end; i += 1) {
total.push(i);
}
return total;
}
console.log(range(10)); // [0, 1, 2, 3, 4, 5, 6, 7, 8, 9]
console.log(range(0, 10)); // [0, 1, 2, 3, 4, 5, 6, 7, 8, 9]
console.log(range(5, 10)); // [5, 6, 7, 8, 9]

This one works also in reverse.
const range = ( a , b ) => Array.from( new Array( b > a ? b - a : a - b ), ( x, i ) => b > a ? i + a : a - i );
range( -3, 2 ); // [ -3, -2, -1, 0, 1 ]
range( 1, -4 ); // [ 1, 0, -1, -2, -3 ]

As far as generating a numeric array for a given range, I use this:
function range(start, stop)
{
var array = [];
var length = stop - start;
for (var i = 0; i <= length; i++) {
array[i] = start;
start++;
}
return array;
}
console.log(range(1, 7)); // [1,2,3,4,5,6,7]
console.log(range(5, 10)); // [5,6,7,8,9,10]
console.log(range(-2, 3)); // [-2,-1,0,1,2,3]
Obviously, it won't work for alphabetical arrays.

You can use following one-liner to keep things short and simple
var start = 4;
var end = 20;
console.log(Array(end - start + 1).fill(start).map((x, y) => x + y));