There's a special syntax to work with promises in a more comfortable fashion, called "async/await". It's surprisingly easy to understand and use.
Let's start with the async keyword. It can be placed before a function, like this:
async function f() {
return 1;
}The word "async" before a function means one simple thing: a function always returns a promise. Other values are wrapped in a resolved promise automatically.
For instance, this function returns a resolved promise with the result of 1; let's test it:
async function f() {
return 1;
}
f().then(alert); // 1...We could explicitly return a promise, which would be the same:
async function f() {
return Promise.resolve(1);
}
f().then(alert); // 1So, async ensures that the function returns a promise, and wraps non-promises in it. Simple enough, right? But not only that. There's another keyword, await, that works only inside async functions, and it's pretty cool.
The syntax:
// works only inside async functions
let value = await promise;The keyword await makes JavaScript wait until that promise settles and returns its result.
Here's an example with a promise that resolves in 1 second:
async function f() {
let promise = new Promise((resolve, reject) => {
setTimeout(() => resolve("done!"), 1000)
});
*!*
let result = await promise; // wait until the promise resolves (*)
*/!*
alert(result); // "done!"
}
f();The function execution "pauses" at the line (*) and resumes when the promise settles, with result becoming its result. So the code above shows "done!" in one second.
Let's emphasize: await literally suspends the function execution until the promise settles, and then resumes it with the promise result. That doesn't cost any CPU resources, because the JavaScript engine can do other jobs in the meantime: execute other scripts, handle events, etc.
It's just a more elegant syntax of getting the promise result than promise.then, easier to read and write.
````warn header="Can't use await in regular functions"
If we try to use `await` in non-async function, there would be a syntax error:
function f() {
let promise = Promise.resolve(1);
*!*
let result = await promise; // Syntax error
*/!*
}We may get this error if we forget to put async before a function. As said, await only works inside an async function.
Let's take the `showAvatar()` example from the chapter <info:promise-chaining> and rewrite it using `async/await`:
1. We'll need to replace `.then` calls with `await`.
2. Also we should make the function `async` for them to work.
```js run
async function showAvatar() {
// read our JSON
let response = await fetch('/article/promise-chaining/user.json');
let user = await response.json();
// read github user
let githubResponse = await fetch(`https://api.github.com/users/${user.name}`);
let githubUser = await githubResponse.json();
// show the avatar
let img = document.createElement('img');
img.src = githubUser.avatar_url;
img.className = "promise-avatar-example";
document.body.append(img);
// wait 3 seconds
await new Promise((resolve, reject) => setTimeout(resolve, 3000));
img.remove();
return githubUser;
}
showAvatar();
```
Pretty clean and easy to read, right? Much better than before.
````smart header="`await` won't work in the top-level code"
People who are just starting to use `await` tend to forget the fact that we can't use `await` in top-level code. For example, this will not work:
```js run
// syntax error in top-level code
let response = await fetch('/article/promise-chaining/user.json');
let user = await response.json();
```
But we can wrap it into an anonymous async function, like this:
```js
(async () => {
let response = await fetch('/article/promise-chaining/user.json');
let user = await response.json();
...
})();
```
````smart header="await accepts "thenables""
Like `promise.then`, `await` allows us to use thenable objects (those with a callable `then` method). The idea is that a third-party object may not be a promise, but promise-compatible: if it supports `.then`, that's enough to use it with `await`.
Here's a demo Thenable class; the await below accepts its instances:
class Thenable {
constructor(num) {
this.num = num;
}
then(resolve, reject) {
alert(resolve);
// resolve with this.num*2 after 1000ms
setTimeout(() => resolve(this.num * 2), 1000); // (*)
}
};
async function f() {
// waits for 1 second, then result becomes 2
let result = await new Thenable(1);
alert(result);
}
f();If await gets a non-promise object with .then, it calls that method providing the built-in functions resolve and reject as arguments (just as it does for a regular Promise executor). Then await waits until one of them is called (in the example above it happens in the line (*)) and then proceeds with the result.
````smart header="Async class methods"
To declare an async class method, just prepend it with `async`:
```js run
class Waiter {
*!*
async wait() {
*/!*
return await Promise.resolve(1);
}
}
new Waiter()
.wait()
.then(alert); // 1
```
The meaning is the same: it ensures that the returned value is a promise and enables `await`.
If a promise resolves normally, then await promise returns the result. But in the case of a rejection, it throws the error, just as if there were a throw statement at that line.
This code:
async function f() {
*!*
await Promise.reject(new Error("Whoops!"));
*/!*
}...is the same as this:
async function f() {
*!*
throw new Error("Whoops!");
*/!*
}In real situations, the promise may take some time before it rejects. In that case there will be a delay before await throws an error.
We can catch that error using try..catch, the same way as a regular throw:
async function f() {
try {
let response = await fetch('http://no-such-url');
} catch(err) {
*!*
alert(err); // TypeError: failed to fetch
*/!*
}
}
f();In the case of an error, the control jumps to the catch block. We can also wrap multiple lines:
async function f() {
try {
let response = await fetch('/no-user-here');
let user = await response.json();
} catch(err) {
// catches errors both in fetch and response.json
alert(err);
}
}
f();If we don't have try..catch, then the promise generated by the call of the async function f() becomes rejected. We can append .catch to handle it:
async function f() {
let response = await fetch('http://no-such-url');
}
// f() becomes a rejected promise
*!*
f().catch(alert); // TypeError: failed to fetch // (*)
*/!*If we forget to add .catch there, then we get an unhandled promise error (viewable in the console). We can catch such errors using a global unhandledrejection event handler as described in the chapter info:promise-error-handling.
```smart header="async/await and `promise.then/catch`"
When we use `async/await`, we rarely need `.then`, because `await` handles the waiting for us. And we can use a regular `try..catch` instead of `.catch`. That's usually (but not always) more convenient.
But at the top level of the code, when we're outside any async function, we're syntactically unable to use await, so it's a normal practice to add .then/catch to handle the final result or falling-through error, like in the line (*) of the example above.
````smart header="`async/await` works well with `Promise.all`"
When we need to wait for multiple promises, we can wrap them in `Promise.all` and then `await`:
```js
// wait for the array of results
let results = await Promise.all([
fetch(url1),
fetch(url2),
...
]);
In the case of an error, it propagates as usual, from the failed promise to Promise.all, and then becomes an exception that we can catch using try..catch around the call.
## Summary
The `async` keyword before a function has two effects:
1. Makes it always return a promise.
2. Allows `await` to be used in it.
The `await` keyword before a promise makes JavaScript wait until that promise settles, and then:
1. If it's an error, the exception is generated — same as if `throw error` were called at that very place.
2. Otherwise, it returns the result.
Together they provide a great framework to write asynchronous code that is easy to both read and write.
With `async/await` we rarely need to write `promise.then/catch`, but we still shouldn't forget that they are based on promises, because sometimes (e.g. in the outermost scope) we have to use these methods. Also `Promise.all` is nice when we are waiting for many tasks simultaneously.