Mon, April 4, 2016 ES6 Succinctly

ES6, ES2015 or Harmony has brought a number of interesting features to the table and this article is going to be a drill-down in all those new features that it has to offer.

Agreed, ES6 is out since June 2015 and a lot has been written about the new features since then and you are better off without another article ..but it isn’t going to stop me from writing it. Why? Because, one, it has been laying around incomplete in my disk for quite some time now, second, although I read a few articles about the topic, writing one myself will help better implant the idea into my brain. So the article is not only going to be for you but for me too. Seems fair? Alright, let’s get started then.

Strict mode by default

ES5 – Manually enable it using use strict

– Manually enable it using ES6 – Enabled in modules by default

ES5 introduced strict mode in Javascript that let’s you make your javascript execute in a “strict” operating environment where more exceptions are thrown when you try to write sloppy code. For example, in strict mode you can’t use a variable without declaration i.e. foo = "bar"; , where foo is not declared will fail etc. I won’t get into the detail of strict mode and instead refer you to this wonderful article on the topic.

ES6 has the strict mode enabled by default in it’s modules i.e. you donot have to explicitly write use strict to enable it.

Block Scope

ES5 – Variables declared using var and having function scope

– Variables declared using and having scope ES6 – Declare block scoped variables using let/const

In ES5 we could declare variables only via var and these variables had the scope of function and the other way was to use it without even adding var which will put it in the global scope.

Now we have two more constructs i.e. let and const which we can use to declare variables having the block level scope i.e. within the curly braces {} . The only difference between let and const is that const value cannot be changed once initialized also you have to initialize the const variable at the time of declaration.

// Example: // `let` and `const` declared variables will not be accessible // outside the if block function scopeExample () { if ( true ) { // `action` and `act` will only be accessible inside this `if` block let action = ' Some action ' ; const act = ' Some act ' ; console . log ( ' Doing: ' + action ); // Doing: Some Action console . log ( ' Now doing: ' + act ); // Now doing: Some act } console . log ( act ); // Uncaught ReferenceError: "act" is not defined console . log ( action ); // Uncaught ReferenceError: "action" is not defined } // Example: // Value of the `const` variable cant be changed once assigned function constExample () { const action = ' something ' ; action = ' Updated action ' ; // Uncaught TypeError: Assignment to constant variable. }

You may no longer need IIFEs, and use a block {} with let and const variables inside

Template Literals

Previously, when you had a variable and you wanted to populate it’s value in a string, you had to use concatenation operator to do that i.e.

var name = ' John ' ; console . log ( ' Hello ' + name );

In ES6, there are template literals i.e. you can simply do:

var name = ' John ' ; console . log ( `Hello ${ name } ` );

A few things to note here; for template literals, you must use backticks and the variables used in the template literal must be declared before the use of template literals.

Arrow functions

Arrow functions are an abbreviated syntax for anonymous functions where there is no function keyword and has implied return statement. Confused yet? Here are the examples:

// ES5 example var sayHello = function ( name ) { return ' Hello ' + name + ' ! ' ; }; // Using ES6: // Arrow function (The one liner) var sayHello = name => `Hello ${ name } !` ; sayHello ( ' World ' ); // Hello World // With block in case multiple statements are involved var sayHello = name => { // Say hello to world in case no name provided name = name || ' World ' ; return `Hello ${ name } !` ; }; sayHello (); // Hello World! sayHello ( ' Jim ' ); // Hello Jim! // Without parameters var sayHello = () => { return ' Hello World! ' ; }; sayHello (); // Hello World! // With multiple parameters var greet = ( greeting , name ) => ` ${ greeting } ${ name } !` ; // or with block var greet = ( greeting , name ) => { return ` ${ greeting } ${ name } !` ; }; greet ( ' Hello ' , ' World ' ); // Hello World

Destructuring

If you are coming from PHP, you might be aware of a language construct called list the similar can be achieved in Javascript now. Here are a few examples to demonstrate it better.

You can apply it on arrays

var parts = ' 2010-11-11 ' . split ( ' - ' ), year = parts [ 0 ], month = parts [ 1 ], day = parts [ 2 ]; console . log ()

Here is a one liner in ES6

var [ year , month , day ] = ' 2010-10-11 ' . split ( ' - ' ); console . log ( year ); // 2010 console . log ( month ); // 10 console . log ( day ); // 11

You can leave some values as well if you want i.e. from the above example

// Only take the month and day var [, month , day ] = ' 2010-10-11 ' . split ( ' - ' ); console . log ( month ); // 10 console . log ( day ); // 11 // Only take the year and day var [ year , , day ] = ' 2010-10-11 ' . split ( ' - ' ); console . log ( year ); // 2010 console . log ( day ); // 11

Also, you can set default values i.e. if some variable wasn’t able to get filled the default value will be used i.e.

// Assume that date is going to be optional and if it is not found, we would like to use `1` then var [ year , month , date = 1 ] = ' 2010-10 ' . split ( ' - ' ); console . log ( year ); // 2010 console . log ( month ); // 10 console . log ( date ); // 1 var [ year , month , date = 1 ] = ' 2010-10-11 ' . split ( ' - ' ); console . log ( year ); // 2010 console . log ( month ); // 10 console . log ( date ); // 11

It works for the objectcs as well

var person = { name : ' John Doe ' , age : 23 , gender : ' male ' }; var { name , age , gender } = person ; console . log ( name ); // John Doe console . log ( age ); // 23 console . log ( gender ); // male

Aliasing From the above example, you must have noticed that I have used the same variable names for the properties i.e. name , age and gender in var {name, age, gender} . But what if, I want to store the person.name in tag and person.gender in sex ?! Well in that case you can easily use the aliases:

var person = { name : ' John Doe ' , age : 23 , gender : ' male ' }; var { name : tag , age , gender : sex } = person ; console . log ( tag ); // John Doe console . log ( age ); // 23 console . log ( sex ); // male

Also, you can have default values as well i.e. for example if you we wanted to get the default gender for male i.e. if the gender isn’t there use male , you can do that by following:

var person = { name : ' John Doe ' , age : 23 }; var { name , age , gender = ' male ' } = person ; console . log ( name ); // John Doe console . log ( age ); // 23 console . log ( gender ); // male // Alias and default value at the same time var person = { name : ' John Doe ' , age : 23 }; var { name , age , gender : sex = ' male ' } = person ; console . log ( name ); // John Doe console . log ( age ); // 23 console . log ( sex ); // male

And here is another example

// Returning object/multiple values from a function call function getLocation () { return { latitude : 23.4125 , longitude : 45.128 }; } var { latitude : lat , longitude : long } = getLocation (); console . log ( lat ); //23.4125 console . log ( long ); //45.128

Check this gist for a whole lot of examples

The mighty for...of

Previously in order to iterate arrays, you might have used for or forEach . for allows you to break out of the loop but isn’t concise, while forEach doesn’t allow you to break out of the loop but is concise. Meet for...of which is both concise and supports breaking out of the loop. Here is how you can use it to iterate throught the arrays:

var numbers = [ 10 , 20 , 30 , 40 , 50 , 60 , 70 , 80 , 90 ]; for ( let number of numbers ) { console . log ( number ) } // You can break out of it as well var numbers = [ 10 , 20 , 30 , 40 , 50 , 60 , 70 , 80 , 90 ]; for ( let number of numbers ) { if ( number === 50 ) { break ; } console . log ( number ); }

Let me put another example here using a mix of destructuring and for...of

var guests = [{ name : ' John Doe ' , title : ' Mr ' }, { name : ' Jane Doe ' , title : ' Ms ' }]; for ( let { name } of guests ) { console . log ( ' Hello ' + name + ' ! ' ); } // Hello John Doe! // Hello Jane Doe!

Default Parameter Values

In ES6, you can have the default parameter values for example previously you might have done the following to achieve that:

function greet ( greet , name ) { greet = greet || ' Hi ' ; name = name || ' John Doe ' ; console . log ( greet + ' ' + name ); }

Well, now you can do the following

function greet ( greet = ' Hi ' , name = ' John Doe ' ) { console . log ( greet + ' ' + name ); }

Plus unlike the first example, where the default value will get assigned on any falsy value, the latter one will work when there is an undefined value for some argument. Also the default values work for object arguments as well i.e.

Spread operator ...

Previously when you needed an unknown number of parameters, you would have used special variable called arguments .

function populateBucket () { var bucket = []; for ( var itemCounter = 0 ; itemCounter < arguments . length ; itemCounter ++ ) { bucket . push ( arguments [ itemCounter ]); } }

And you might have noticed that it already has started to get messy. In ES-6 you can use spread operator i.e.

function populateBucket (... items ) { var bucket = []; for ( item of items ) { bucket . push ( item ); } }

You can also use it to merge arrays e.g.

var a = [ 1 , 2 , 3 ], b = [ 4 , 5 , 6 ], merged = []; // What used to be the following for merging arrays merged = a . concat ( b ); // Can now be written as merged = [... a , ... b ];

Classes

Remember how we used to create classes using constructor functions, ES-6 introduces some syntactic sugar to make it more pleasant. Now you can create classes like below:

class Person { // Will be called when instnatiating person constructor ( name ) { this . name = name ; console . log ( ' A person named " ' + name + ' " is born ' ); } // No need to write function keyword sayHello () { console . log ( this . name + ' says hello ' ); } }

Also you can extend classes without having to touch prototype now

class Employee extends Person { constructor ( name ) { super ( name ); console . log ( this . name + ' has been employed ' ); } }

Maps

A new data structure has been introduced called map which holds key value pairs.

var map = new Map (); map . set ( ' spec ' , ' 2015 ' ); map . set ( ' year ' , ' 2015 ' ); // use `.get()` to retrieve items console . log ( map . get ( ' spec ' )); // 2015

You can also iterate the maps

for ( var [ key , value ] of map ) { console . log ( key + ' : ' + value ); }

Also there are some helper functions to manipulate maps

map . entries (); // Gives you all the entries in map map . keys (); // Gives you all the keys in map map . values (); // Gets you the values stored in map map . has ( keyName ); // Checks if a map has specified key or not map . delete ( keyName ); // Replaces the value having the provided key map . size ; // Gives you the size of map map . clear (); // Clears all the collection

WeakMaps

Like Map , WeakMap is a collection of key/value pairs where the keys must be objects or in other words they must be reference types and not value types like numbers, symbols or strings etc and the values can be arbitrary values. If there is no other reference to the key stored in the WeakMap , they can be garbage collected. It means they are good for keeping metadata around for the objects while they are still being used. Let’s look at the example that I have stolen from mozilla JS reference to make it more clear

var wm1 = new WeakMap (), wm2 = new WeakMap (), wm3 = new WeakMap (); var o1 = {}, o2 = function (){}, o3 = window ; wm1 . set ( o1 , 37 ); wm1 . set ( o2 , " azerty " ); wm2 . set ( o1 , o2 ); // a value can be anything, including an object or a function wm2 . set ( o3 , undefined ); wm2 . set ( wm1 , wm2 ); // keys and values can be any objects. Even WeakMaps! wm1 . get ( o2 ); // "azerty" wm2 . get ( o2 ); // undefined, because there is no value for o2 on wm2 wm2 . get ( o3 ); // undefined, because that is the set value wm1 . has ( o2 ); // true wm2 . has ( o2 ); // false wm2 . has ( o3 ); // true (even if the value itself is 'undefined') wm3 . set ( o1 , 37 ); wm3 . get ( o1 ); // 37 wm1 . has ( o1 ); // true wm1 . delete ( o1 ); wm1 . has ( o1 ); // false

Sets

Sets are the collection of unique values. Any duplicate values will be ignored. The values could be also a primitives or object references.

let set = new Set (); set . add ( 1 ); set . add ( ' 1 ' ); set . add ({ key : ' value ' }); console . log ( set ); // Set {1, '1', Object {key: 'value'}} // Delete values set . delete ( 2 ); // Check size console . log ( set . size );

Like a map, set allows to create collection by passing an array to its constructor:

let set = new Set ([ 1 , ' 1 ' , { key : ' value ' }]); console . log ( set ); // Set {1, '1', Object {key: 'value'}}

To iterate over sets we have the same two options — built-in forEach function or for..of structure:

// forEach let set = new Set ([ 1 , ' 1 ' , { key : ' value ' }]); set . forEach ( function ( value ) { console . log ( value ); // 1 // '1' // Object {key: 'value'} }); // for..of let set = new Set ([ 1 , ' 1 ' , { key : ' value ' }]); for ( let value of set ) { console . log ( value ); // 1 // '1' // Object {key: 'value'} };

Weaksets

In contrast to the Set which can be a collection of anything, Weakset is only a collection of objects and not of arbitrary values of any type. The WeakSet is weak: References to objects in the collection are held weakly. If there is no other reference to an object stored in the WeakSet , they can be garbage collected. Also, WeakSets are not enumerable and so you don’t get enumeration methods like .forEach , .clear etc.

var ws = new WeakSet (); var obj = {}; var foo = {}; ws . add ( window ); ws . add ( obj ); ws . has ( window ); // true ws . has ( foo ); // false, foo has not been added to the set ws . delete ( window ); // removes window from the set ws . has ( window ); // false, window has been removed

New String Functions

Several new String methods have been introduced to make our lives easy. Remember how we used to use indexOf to check the existence of a string inside another, or to check if a string starts/ends with a specific character, no more folks

var message = ' Hello World ' ; message . startsWith ( ' H ' ); // instead of message.indexOf('H') === 0 message . endsWith ( ' d ' ); // instead of whatever ¯\_(ツ)_/¯ message . includes ( ' or ' ); // instead of message.indexOf('or') >= 0

Also, there is a helper for repeating character n times.

// Previously you would have done new Array ( 3 + 1 ) * ' * ' // Now you can simply do ' * ' . repeat ( 3 ); // Will generate ***

New Array Functions

There are some new array functions. Array.from let’s you create arrays from array like objects. For example:

// Array-like object (arguments) to Array function fooBar () { return Array . from ( arguments ); } fooBar ( 1 , 2 , 3 , 5 ); // [1, 2, 3, 5]; // Any iterable object... // Set var s = new Set ([ " foo " , window ]); Array . from ( s ); // ["foo", window] // Map var m = new Map ([[ 1 , 2 ], [ 2 , 4 ], [ 4 , 8 ]]); Array . from ( m ); // [[1, 2], [2, 4], [4, 8]] // Using an arrow function as the map function to // manipulate the elements Array . from ([ 1 , 2 , 3 ], x => x + x ); // [2, 4, 6]

Array.fill allows you to replace all the elements of an array with the passed element

var randomNumbers = [ 1 , 5 , 7 , 77 , 12 , 3 ]; randomNumbers . fill ( ' * ' ); // ['*', '*', '*', '*', '*', '*'];

Array.find receives a callback and returns the first element satisfying the condition in callback

var users = [{ name : ' John Doe ' , age : 23 }, { name : ' Jane Doe ' , age : 25 }, { name : ' Kane Doe ' , age : 30 }]; users . find ( user => user . age > 25 ); // {name: 'Kane Doe', age: 30}

Also a similar function is Array.findIndex which works the same but returns the index of the matching element instead.

Modules

ES was missing native modules support for a long time. People came up with things like AMD, CommonJS or Modular pattern for that matter and other similar work arounds. ES6 finally has the support for modules natively now. Let’s scratch the surface a bit.

By default anything that you declare in a file is not going to be visible outside, unless you export it.

Take the example of a User module below

// user.js var localVariable = 123 ; // not visible outside this file export default function User ( age ) { this . age = age ; }; // can be imported by other files

And now if we want to use this

// user-details.js import User from ' user ' ; var user = new User ( 24 );

There is a lot more to it. Please have a look at this article for further details

Final Words

Although ES6 has been finalized, there still is dangling support for it in the browsers. But, there are tons of tools in the wild to help us use ES6 today. The most popular one is BabelJS which can either be run as a standalone tool or be used with your build system. They have plugins available for Grunt, Gulp etc.

Okay folks, that about wraps it up. There are still some noteworthy and mind-bending features which haven’t been mentioned here Generators, Promises, Proxy and Symbols to name a few. But, the things covered in this article are enough to get you up and started. However I would highly recommend this series of articles and this book if you can ..and the specs maybe for the overachievers. Until next time, stay tuned.