# Arrays

Domains:

Objects allow you to store keyed collections of values. That's fine.

But quite often we find that we need an ordered collection, where we have a 1st, a 2nd, a 3rd element and so on. For example, we need that to store a list of something: users, goods, HTML elements etc.

It is not convenient to use an object here, because it provides no methods to manage the order of elements. We can’t insert a new property “between” the existing ones. Objects are just not meant for such use.

There exists a special data structure named Array, to store ordered collections.

## Declaration

There are two syntaxes for creating an empty array:

let arr = new Array();
let arr = [];


Almost all the time, the second syntax is used. We can supply initial elements in the brackets:

let fruits = ["Apple", "Orange", "Plum"];


Array elements are numbered, starting with zero.

We can get an element by its number in square brackets:

let fruits = ["Apple", "Orange", "Plum"];



We can replace an element:

fruits[2] = 'Pear'; // now ["Apple", "Orange", "Pear"]


...Or add a new one to the array:

fruits[3] = 'Lemon'; // now ["Apple", "Orange", "Pear", "Lemon"]


The total count of the elements in the array is its length:

let fruits = ["Apple", "Orange", "Plum"];


We can also use alert to show the whole array.

let fruits = ["Apple", "Orange", "Plum"];


An array can store elements of any type.

For instance:

// mix of values
let arr = [ 'Apple', { name: 'John' }, true, function() { alert('hello'); } ];

// get the object at index 1 and then show its name

// get the function at index 3 and run it
arr[3](); // hello


An array, just like an object, may end with a comma:

let fruits = [   "Apple",   "Orange",   "Plum"*!*,*/!* ];

The "trailing comma" style makes it easier to insert/remove items, because all lines become alike.

## Methods pop/push, shift/unshift

A queue is one of most common uses of an array. In computer science, this means an ordered collection of elements which supports two operations:

• push appends an element to the end.
• shift get an element from the beginning, advancing the queue, so that the 2nd element becomes the 1st.

Arrays support both operations.

In practice we meet it very often. For example, a queue of messages that need to be shown on-screen.

There's another use case for arrays -- the data structure named stack.

It supports two operations:

• push adds an element to the end.
• pop takes an element from the end.

So new elements are added or taken always from the "end".

A stack is usually illustrated as a pack of cards: new cards are added to the top or taken from the top:

For stacks, the latest pushed item is received first, that's also called LIFO (Last-In-First-Out) principle. For queues, we have FIFO (First-In-First-Out).

Arrays in JavaScript can work both as a queue and as a stack. They allow you to add/remove elements both to/from the beginning or the end.

In computer science the data structure that allows it is called deque.

Methods that work with the end of the array:

pop : Extracts the last element of the array and returns it:

let fruits = ["Apple", "Orange", "Pear"];
alert( fruits ); // Apple, Orange


push : Append the element to the end of the array:

let fruits = ["Apple", "Orange"];
fruits.push("Pear");
alert( fruits ); // Apple, Orange, Pear


The call fruits.push(...) is equal to fruits[fruits.length] = ....

Methods that work with the beginning of the array:

shift : Extracts the first element of the array and returns it:

let fruits = ["Apple", "Orange", "Pear"];
alert( fruits ); // Orange, Pear


unshift : Add the element to the beginning of the array:

let fruits = ["Orange", "Pear"];
fruits.unshift('Apple');
alert( fruits ); // Apple, Orange, Pear


Methods push and unshift can add multiple elements at once:

let fruits = ["Apple"];

fruits.push("Orange", "Peach");
fruits.unshift("Pineapple", "Lemon");

// ["Pineapple", "Lemon", "Apple", "Orange", "Peach"]


## Internals

An array is a special kind of object. The square brackets used to access a property arr[0] actually come from the object syntax. Numbers are used as keys.

They extend objects providing special methods to work with ordered collections of data and also the length property. But at the core it's still an object.

Remember, there are only 7 basic types in JavaScript. Array is an object and thus behaves like an object.

For instance, it is copied by reference:

let fruits = ["Banana"]
let arr = fruits; // copy by reference (two variables reference the same array)

alert( arr === fruits ); // true
arr.push("Pear"); // modify the array by reference
alert( fruits ); // Banana, Pear - 2 items now


...But what makes arrays really special is their internal representation. The engine tries to store its elements in the contiguous memory area, one after another, just as depicted on the illustrations in this chapter, and there are other optimizations as well, to make arrays work really fast.

But they all break if we quit working with an array as with an "ordered collection" and start working with it as if it were a regular object.

For instance, technically we can do this:

let fruits = []; // make an array
fruits[99999] = 5; // assign a property with the index far greater than its length
fruits.age = 25; // create a property with an arbitrary name


That's possible, because arrays are objects at their base. We can add any properties to them.

But the engine will see that we're working with the array as with a regular object. Array-specific optimizations are not suited for such cases and will be turned off, their benefits disappear.

The ways to misuse an array:

• Add a non-numeric property like arr.test = 5.
• Make holes, like: add arr[0] and then arr[1000] (and nothing between them).
• Fill the array in the reverse order, like arr[1000], arr[999] and so on.

Please think of arrays as special structures to work with the ordered data. They provide special methods for that. Arrays are carefully tuned inside JavaScript engines to work with contiguous ordered data, please use them this way. And if you need arbitrary keys, chances are high that you actually require a regular object {}.

## Performance

Methods push/pop run fast, while shift/unshift are slow.

Why is it faster to work with the end of an array than with its beginning? Let's see what happens during the execution:

fruits.shift(); // take 1 element from the start


It's not enough to take and remove the element with the number 0. Other elements need to be renumbered as well.

The shift operation must do 3 things:

1. Remove the element with the index 0.
2. Move all elements to the left, renumber them from the index 1 to 0, from 2 to 1 and so on.
3. Update the length property.

The more elements in the array, the more time to move them, more in-memory operations.

The similar thing happens with unshift: to add an element to the beginning of the array, we need first to move existing elements to the right, increasing their indexes.

And what's with push/pop? They do not need to move anything. To extract an element from the end, the pop method cleans the index and shortens length.

The actions for the pop operation:

fruits.pop(); // take 1 element from the end


The pop method does not need to move anything, because other elements keep their indexes. That's why it's blazingly fast.

The similar thing with the push method.

## Loops

One of the oldest ways to cycle array items is the for loop over indexes:

let arr = ["Apple", "Orange", "Pear"];

*!*
for (let i = 0; i < arr.length; i++) {
*/!*
}


But for arrays there is another form of loop, for..of:

let fruits = ["Apple", "Orange", "Plum"];

// iterates over array elements
for (let fruit of fruits) {
}


The for..of doesn't give access to the number of the current element, just its value, but in most cases that's enough. And it's shorter.

Technically, because arrays are objects, it is also possible to use for..in:

let arr = ["Apple", "Orange", "Pear"];

*!*
for (let key in arr) {
*/!*
alert( arr[key] ); // Apple, Orange, Pear
}


But that's actually a bad idea. There are potential problems with it:

1. The loop for..in iterates over all properties, not only the numeric ones.

There are so-called "array-like" objects in the browser and in other environments, that look like arrays. That is, they have length and indexes properties, but they may also have other non-numeric properties and methods, which we usually don't need. The for..in loop will list them though. So if we need to work with array-like objects, then these "extra" properties can become a problem.

2. The for..in loop is optimized for generic objects, not arrays, and thus is 10-100 times slower. Of course, it's still very fast. The speedup may matter only in bottlenecks or just irrelevant. But still we should be aware of the difference.

Generally, we shouldn't use for..in for arrays.

The length property automatically updates when we modify the array. To be precise, it is actually not the count of values in the array, but the greatest numeric index plus one.

For instance, a single element with a large index gives a big length:

let fruits = [];
fruits[123] = "Apple";



Note that we usually don't use arrays like that.

Another interesting thing about the length property is that it's writable.

If we increase it manually, nothing interesting happens. But if we decrease it, the array is truncated. The process is irreversible, here's the example:

let arr = [1, 2, 3, 4, 5];

arr.length = 2; // truncate to 2 elements
alert( arr ); // [1, 2]

arr.length = 5; // return length back
alert( arr[3] ); // undefined: the values do not return


So, the simplest way to clear the array is: arr.length = 0;.

## new Array() [#new-array]

There is one more syntax to create an array:

let arr = *!*new Array*/!*("Apple", "Pear", "etc");


It's rarely used, because square brackets [] are shorter. Also there's a tricky feature with it.

If new Array is called with a single argument which is a number, then it creates an array without items, but with the given length.

Let's see how one can shoot themself in the foot:

let arr = new Array(2); // will it create an array of [2] ?
alert( arr[0] ); // undefined! no elements.
alert( arr.length ); // length 2


In the code above, new Array(number) has all elements undefined.

To evade such surprises, we usually use square brackets, unless we really know what we're doing.

## Multidimensional arrays

Arrays can have items that are also arrays. We can use it for multidimensional arrays, to store matrices:

let matrix = [
[1, 2, 3],
[4, 5, 6],
[7, 8, 9]
];

alert( matrix[1][1] ); // the central element


## toString

Arrays have their own implementation of toString method that returns a comma-separated list of elements.

For instance:

let arr = [1, 2, 3];

alert( String(arr) === '1,2,3' ); // true


Also, let's try this:

alert( [] + 1 ); // "1"
alert( [1] + 1 ); // "11"
alert( [1,2] + 1 ); // "1,21"


Arrays do not have Symbol.toPrimitive, neither a viable valueOf, they implement only toString conversion, so here [] becomes an empty string, [1] becomes "1" and [1,2] becomes "1,2".

When the binary plus "+" operator adds something to a string, it converts it to a string as well, so the next step looks like this:

alert( "" + 1 ); // "1"
alert( "1" + 1 ); // "11"
alert( "1,2" + 1 ); // "1,21"


## Summary

Array is a special kind of object, suited to storing and managing ordered data items.

• The declaration:

		// square brackets (usual)
let arr = [item1, item2...];

// new Array (exceptionally rare)
let arr = new Array(item1, item2...);

The call to new Array(number) creates an array with the given length, but without elements.

• The length property is the array length or, to be precise, its last numeric index plus one. It is auto-adjusted by array methods.

• If we shorten length manually, the array is truncated.

We can use an array as a deque with the following operations:

• push(...items) adds items to the end.
• pop() removes the element from the end and returns it.
• shift() removes the element from the beginning and returns it.
• unshift(...items) adds items to the beginning.

To loop over the elements of the array:

• for (let i=0; i<arr.length; i++) -- works fastest, old-browser-compatible.
• for (let item of arr) -- the modern syntax for items only,
• for (let i in arr) -- never use.

We will return to arrays and study more methods to add, remove, extract elements and sort arrays in the chapter info:array-methods.

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