In this article, we’re going to review some of the latest and greatest features coming with ES2020. 🔥
🤠 Getting started
We are going to test these features in a Node.js environment using Babel.
Method #1: creating a project from scratch
Start by creating a new project:
$ mkdir es2020-tests$ yarn initNow add
@babel/cli @babel/core @babel/node @babel/preset-env$ yarn add --dev @babel/cli @babel/core @babel/node @babel/preset-envCreate a `.babelrc` file:
{
"presets": ["@babel/preset-env"]
}Method #2: clone the source code repository
You can also clone the following GitHub repository that includes the setup and source code of the examples in this article.
$ git clone git@github.com:olivierloverde/es2020-examples.git
$ yarn install🤖 The ES2020 features
Private variable in Class
You can now declare a private variable in a class by using a hastag
#SyntaxErrorclass MyClass {
#privateVariable = "Hello private world"
helloWorld() { console.info(this.#privateVariable) }
}
const myClass = new MyClass()
myClass.helloWorld() // works
console.info(myClass.#helloWorld) // SyntaxError: Private field '#helloWorld' must be declared in an enclosing classBigInt
There was a limitation on largest possible integer because of how Javascript represented number internally (it is using a 64-bit floating point, see IEE 754.
const maxInteger = Number.MAX_SAFE_INTEGER;
console.info(maxInteger); // 9007199254740991
console.info(maxInteger + 1); // 9007199254740992
console.info(maxInteger + 2); // 9007199254740992 ??
console.info(maxInteger + 3); // 9007199254740994
console.info(maxInteger + 200); // 9007199254741192 ??
console.info(maxInteger * 200); // 1801439850948198100 ??Now there is a native solution, BigInt is a built-in object that provides a way to represent whole numbers larger than 2⁵³ — 1, which is the largest number in JS number).
You can create a BigInt by:
- creating a `BigInt` object: `const value = new BigInt(500)`
- appending a `n` to a number: `const value = 500n`
For the moment, it cannot be used with methods in the built-in `Math` object and cannot be operated with `Number`. Bitwise operators are supported except `>>>` because all BigInts are signed.
// Using BigInt
const maxIntegerBigInt = BigInt(maxInteger);
console.info(maxIntegerBigInt); // 9007199254740991n
console.info(maxIntegerBigInt + 1n); // 9007199254740992n
console.info(maxIntegerBigInt + 2n); // 9007199254740993n
console.info(maxIntegerBigInt + 3n); // 9007199254740994n
console.info(maxIntegerBigInt + 200n); // 9007199254741191n
console.info(maxIntegerBigInt * 200n); // 1801439850948198200nPromise.allSettled()
Promise.allSettled takes an array of
Promiseconst resolvingPromise1000ms = new Promise((resolve, reject) => setTimeout(resolve, 1000));
const rejectingPromise2000ms = new Promise((resolve, reject) => setTimeout(reject, 2000));
const timeCheckpoint = Date.now();
Promise.allSettled([
resolvingPromise1000ms,
rejectingPromise2000ms
]).then(data => {
const elapsedTimeInMS = Date.now() - timeCheckpoint;
console.info(`Promise.allSettled resolved after ${elapsedTimeInMS}ms`)
console.info(data)
});
/*
Promise.allSettled resolved after 2006ms // ? not sure why we have 6ms
[
{ status: 'fulfilled', value: undefined },
{ status: 'rejected', reason: undefined }
]
*/
Nullish Coalescing Operator
When you use
||truefalse0""??let object = {
car: {
speed: 0,
name: ""
}
};
console.info(object.car.speed || 90); // 90
console.info(object.car.speed ?? 90); // 0
console.info(null || true); // true
console.info(null ?? true); // true
console.info(undefined || true); // true
console.info(undefined ?? true); // true
console.info(0 || true); // true
console.info(0 ?? true); // 0
console.info("" || true); // true
console.info("" ?? true); // ""
console.info([] || true); // []
console.info([] ?? true); // []
console.info({} || true); // {}
console.info({} ?? true); // {}
console.info(true || "hey"); // true
console.info(true ?? "hey"); // true
console.info(false || true); // true
console.info(false ?? true); // falseOptional Chaining Operator
Let's take the following object as an example:
let person = {
name: "John",
age: 20
};
Let's say we want to access a property on this object that we are not sure to have, we usually do:
if (person.city !== undefined && person.city.locale !== undefined) {
const cityLocale = person.city.locale;
}This ensures the program does not throw any "error cannot read property name of undefined".
Now with the optional chaining operator, we can be more concise:
console.info(person?.city?.locale);
Dynamic Import
Dynamic `import()` returns a promise for the module namespace object of the requested module. Thus, we can now use the `import()` function with the `await` keyword and assign the module namespace object to a variable dynamically.
const print = (value) => console.info(value);
export { print };
const doPrint = async (value) => {
const Print = await import('./print.js');
Print.print(value)
};
doPrint('Dynamic import works !');String.prototype.matchAll
String.prototype.matchFor example:
const doPrint = async (value) => {
const Print = await import('./print.js');
Print.print(value)
};
doPrint('Dynamic import works !');You are now ready to use these new ES2020 features! Please leave me comment if you've liked it! 🙌
This article was originally posted on my blog olivier.codes