Array

Arrays are everywhere in JavaScript and with the new spread operators introduced in ECMAScript 6, you can do awesome things with them. In this post I will show you 3 useful tricks you can use when programming.

1. Iterating through an empty array

JavaScript arrays are sparse in nature in that there are a lot of holes in them. Try creating an array using the Array's constructor and you will see what I mean.

const arr = new Array(4);
[undefined, undefined, undefined, undefined];

You may find that iterating over a sparse array to apply a certain transformation is hard.

 const arr = new Array(4);
> arr.map((elem, index) => index);
[undefined, undefined, undefined, undefined]

To solve this, you can use Array.apply when creating the array.

 const arr = Array.apply(null, new Array(4));
> arr.map((elem, index) => index);
[0, 1, 2, 3]

2. Passing an empty parameter to a method

If you want to call a method and ignore one of its parameters, then JavaScript will complain if you keep it empty.

 method('parameter1', , 'parameter3');
Uncaught SyntaxError: Unexpected token ,

A workaround that people usually resort to is to pass either null or undefined.

method('parameter1', null, 'parameter3'); // or
method('parameter1', undefined, 'parameter3');

I personally don't like using null since JavaScript treats it as an object and that's just weird. With the introduction of spread operators in ES6, there is a neater way of passing empty parameters to a method. As previously mentioned, arrays are sparse in nature and so passing empty values to it is totally okay. We'll use this to our advantage.

method(...['parameter1', , 'parameter3']); // works!

3. Unique array values

I always wonder why the Array constructor does not have a designated method to facilitate the use of unique array values. Spread operators are here for the rescue. Use spread operators with the Set constructor to generate unique array values.

const arr = [...new Set([1, 2, 3, 3])];
[1, 2, 3];

The JavaScript Array class is a global object that is used in the construction of arrays; which are high-level, list-like objects.

Description

Arrays are list-like objects whose prototype has methods to perform traversal and mutation operations. Neither the length of a JavaScript array nor the types of its elements are fixed. Since an array's length can change at any time, and data can be stored at non-contiguous locations in the array, JavaScript arrays are not guaranteed to be dense; this depends on how the programmer chooses to use them. In general, these are convenient characteristics; but if these features are not desirable for your particular use, you might consider using typed arrays.

Arrays cannot use strings as element indexes (as in an associative array) but must use integers. Setting or accessing via non-integers using bracket notation (or dot notation) will not set or retrieve an element from the array list itself, but will set or access a variable associated with that array's object property collection. The array's object properties and list of array elements are separate, and the array's traversal and mutation operations cannot be applied to these named properties.

Common operations

Create an Array

let fruits = ['Apple', 'Banana']

console.log(fruits.length)
// 2

Access an Array item using the index position

let first = fruits[0]
// Apple

let last = fruits[fruits.length - 1]
// Banana

Loop over an Array

fruits.forEach(function(item, index, array) {
  console.log(item, index)
})
// Apple 0
// Banana 1

Add an item to the end of an Array

let newLength = fruits.push('Orange')
// ["Apple", "Banana", "Orange"]

Remove an item from the end of an Array

let last = fruits.pop() // remove Orange (from the end)
// ["Apple", "Banana"]

Remove an item from the beginning of an Array

let first = fruits.shift() // remove Apple from the front
// ["Banana"]

Add an item to the beginning of an Array

let newLength = fruits.unshift('Strawberry') // add to the front
// ["Strawberry", "Banana"]

Find the index of an item in the Array

fruits.push('Mango')
// ["Strawberry", "Banana", "Mango"]

let pos = fruits.indexOf('Banana')
// 1

Remove an item by index position

let removedItem = fruits.splice(pos, 1) // this is how to remove an item

// ["Strawberry", "Mango"]

Remove items from an index position

let vegetables = ['Cabbage', 'Turnip', 'Radish', 'Carrot']
console.log(vegetables)
// ["Cabbage", "Turnip", "Radish", "Carrot"]

let pos = 1
let n = 2

let removedItems = vegetables.splice(pos, n)
// this is how to remove items, n defines the number of items to be removed,
// starting at the index position specified by pos and progressing toward the end of array.

console.log(vegetables)
// ["Cabbage", "Carrot"] (the original array is changed)

console.log(removedItems)
// ["Turnip", "Radish"]

Copy an Array

let shallowCopy = fruits.slice() // this is how to make a copy
// ["Strawberry", "Mango"]

Accessing array elements

JavaScript arrays are zero-indexed. The first element of an array is at index 0, and the last element is at the index value equal to the value of the array's length property minus 1.

Using an invalid index number returns undefined.

let arr = ['this is the first element', 'this is the second element', 'this is the last element']
console.log(arr[0])              // logs 'this is the first element'
console.log(arr[1])              // logs 'this is the second element'
console.log(arr[arr.length - 1]) // logs 'this is the last element'

Array elements are object properties in the same way that toString is a property (to be specific, however, toString() is a method). Nevertheless, trying to access an element of an array as follows throws a syntax error because the property name is not valid:

console.log(arr.0) // a syntax error

There is nothing special about JavaScript arrays and the properties that cause this. JavaScript properties that begin with a digit cannot be referenced with dot notation and must be accessed using bracket notation.

For example, if you had an object with a property named 3d, it can only be referenced using bracket notation.

let years = [1950, 1960, 1970, 1980, 1990, 2000, 2010]
console.log(years.0)   // a syntax error
console.log(years[0])  // works properly

renderer.3d.setTexture(model, 'character.png')     // a syntax error
renderer['3d'].setTexture(model, 'character.png')  // works properly

In the 3d example, '3d' had to be quoted (because it begins with a digit). But it's also possible to quote the array indexes as well (e.g., years['2'] instead of years[2]), although it's not necessary.

The 2 in years[2] is coerced into a string by the JavaScript engine through an implicit toString conversion. As a result, '2' and '02' would refer to two different slots on the years object, and the following example could be true:

console.log(years['2'] != years['02'])

Relationship between length and numerical properties

A JavaScript array's length property and numerical properties are connected.

Several of the built-in array methods (e.g., join(), slice(), indexOf(), etc.) take into account the value of an array's length property when they're called.

Other methods (e.g., push(), splice(), etc.) also result in updates to an array's length property.

const fruits = []
fruits.push('banana', 'apple', 'peach')

console.log(fruits.length) // 3

When setting a property on a JavaScript array when the property is a valid array index and that index is outside the current bounds of the array, the engine will update the array's length property accordingly:

fruits[5] = 'mango'
console.log(fruits[5])            // 'mango'
console.log(Object.keys(fruits))  // ['0', '1', '2', '5']
console.log(fruits.length)        // 6

Increasing the length.

fruits.length = 10
console.log(fruits)              // ['banana', 'apple', 'peach', empty x 2, 'mango', empty x 4]
console.log(Object.keys(fruits)) // ['0', '1', '2', '5']
console.log(fruits.length)       // 10
console.log(fruits[8])           // undefined

Decreasing the length property does, however, delete elements.

fruits.length = 2
console.log(Object.keys(fruits)) // ['0', '1']
console.log(fruits.length)       // 2

This is explained further on the Array.length page.

Creating an array using the result of a match

The result of a match between a RegExp and a string can create a JavaScript array. This array has properties and elements which provide information about the match. Such an array is returned by RegExp.exec(), String.match(), and String.replace().

To help explain these properties and elements, see this example and then refer to the table below:

// Match one d followed by one or more b's followed by one d
// Remember matched b's and the following d
// Ignore case

const myRe = /d(b+)(d)/i
const myArray = myRe.exec('cdbBdbsbz')

The properties and elements returned from this match are as follows:

Property/ElementDescriptionExample
input

Read only

The original string against which the regular expression was matched."cdbBdbsbz"
index

Read only

The zero-based index of the match in the string.1
[0]

Read only

The last matched characters."dbBd"
[1], ...[n]

Read only

Elements that specify the parenthesized substring matches (if included) in the regular expression. The number of possible parenthesized substrings is unlimited.[1]: "bB" [2]: "d"

Constructor

Array() Creates a new Array object.

Static properties

get Array[@@species] The constructor function is used to create derived objects.

Static methods

Array.from() Creates a new Array instance from an array-like or iterable object.

Array.isArray() Returns true if the argument is an array, or false otherwise.

Array.of() Creates a new Array instance with a variable number of arguments, regardless of number or type of the arguments.

Instance properties

Array.prototype.length Reflects the number of elements in an array.

Array.prototype[@@unscopables] A symbol containing property names to exclude from a with binding scope.

Instance methods

Array.prototype.at() This is an experimental API that should not be used in production code. Returns the array item at the given index. Accepts negative integers, which count back from the last item.

Array.prototype.concat() Returns a new array that is this array joined with other array(s) and/or value(s).

Array.prototype.copyWithin() Copies a sequence of array elements within the array.

Array.prototype.entries() Returns a new Array Iterator object that contains the key/value pairs for each index in the array.

Array.prototype.every() Returns true if every element in this array satisfies the testing function.

Array.prototype.fill() Fills all the elements of an array from a start index to an end index with a static value.

Array.prototype.filter() Returns a new array containing all elements of the calling array for which the provided filtering function returns true.

Array.prototype.find() Returns the found element in the array, if some element in the array satisfies the testing function, or undefined if not found.

Array.prototype.findIndex() Returns the found index in the array, if an element in the array satisfies the testing function, or -1 if not found.

Array.prototype.forEach() Calls a function for each element in the array.

Array.prototype.includes() Determines whether the array contains a value, returning true or false as appropriate.

Array.prototype.indexOf() Returns the first (least) index of an element within the array equal to an element, or -1 if none is found.

Array.prototype.join() Joins all elements of an array into a string.

Array.prototype.keys() Returns a new Array Iterator that contains the keys for each index in the array.

Array.prototype.lastIndexOf() Returns the last (greatest) index of an element within the array equal to an element, or -1 if none is found.

Array.prototype.map() Returns a new array containing the results of calling a function on every element in this array.

Array.prototype.pop() Removes the last element from an array and returns that element.

Array.prototype.push() Adds one or more elements to the end of an array, and returns the new length of the array.

Array.prototype.reduce() Apply a function against an accumulator and each value of the array (from left-to-right) as to reduce it to a single value.

Array.prototype.reduceRight() Apply a function against an accumulator> and each value of the array (from right-to-left) as to reduce it to a single value.

Array.prototype.reverse() Reverses the order of the elements of an array in place. (First becomes the last, last becomes first.)

Array.prototype.shift() Removes the first element from an array and returns that element.

Array.prototype.slice() Extracts a section of the calling array and returns a new array.

Array.prototype.some() Returns true if at least one element in this array satisfies the provided testing function.

Array.prototype.sort() Sorts the elements of an array in place and returns the array.

Array.prototype.splice() Adds and/or removes elements from an array.

Array.prototype.toLocaleString() Returns a localized string representing the array and its elements. Overrides the Object.prototype.toLocaleString() method.

Array.prototype.toString() Returns a string representing the array and its elements. Overrides the Object.prototype.toString() method.

Array.prototype.unshift() Adds one or more elements to the front of an array, and returns the new length of the array.

Array.prototype.values() Returns a new Array Iterator object that contains the values for each index in the array.

Array.prototype[@@iterator]() Returns a new Array Iterator object that contains the values for each index in the array.

Examples

Creating an array

The following example creates an array, msgArray, with a length of 0, then assigns values to msgArray[0] and msgArray[99], changing the length of the array to 100.

let msgArray = []
msgArray[0] = 'Hello'
msgArray[99] = 'world'

if (msgArray.length === 100) {
  console.log('The length is 100.')
}

Creating a two-dimensional array

The following creates a chessboard as a two-dimensional array of strings. The first move is made by copying the 'p' in board[6][4] to board[4][4]. The old position at [6][4] is made blank.

let board = [
  ['R','N','B','Q','K','B','N','R'],
  ['P','P','P','P','P','P','P','P'],
  [' ',' ',' ',' ',' ',' ',' ',' '],
  [' ',' ',' ',' ',' ',' ',' ',' '],
  [' ',' ',' ',' ',' ',' ',' ',' '],
  [' ',' ',' ',' ',' ',' ',' ',' '],
  ['p','p','p','p','p','p','p','p'],
  ['r','n','b','q','k','b','n','r'] ]

console.log(board.join('\n') + '\n\n')

// Move King's Pawn forward 2
board[4][4] = board[6][4]
board[6][4] = ' '
console.log(board.join('\n'))

Here is the output:

R,N,B,Q,K,B,N,R
P,P,P,P,P,P,P,P
 , , , , , , ,
 , , , , , , ,
 , , , , , , ,
 , , , , , , ,
p,p,p,p,p,p,p,p
r,n,b,q,k,b,n,r

R,N,B,Q,K,B,N,R
P,P,P,P,P,P,P,P
 , , , , , , ,
 , , , , , , ,
 , , , ,p, , ,
 , , , , , , ,
p,p,p,p, ,p,p,p
r,n,b,q,k,b,n,r

Using an array to tabulate a set of values

values = []
for (let x = 0; x < 10; x++){
 values.push([
  2 ** x,
  2 * x ** 2
 ])
}
console.table(values)

Results in

// The first column is the index
0   1   0
1   2   2
2   4   8
3   8   18
4   16  32
5   32  50
6   64  72
7   128 98
8   256 128
9   512 162