async function
An async function is a function declared with the async
keyword, and the await
keyword is permitted within it. The async
and await
keywords enable asynchronous, promise-based behavior to be written in a cleaner style, avoiding the need to explicitly configure promise chains.
Async functions may also be defined as expressions.
Syntax
async function name([param[, param[, ...param]]]) {
statements
}
Parameters
name
-
The function's name.
param
-
The name of an argument to be passed to the function.
statements
-
The statements comprising the body of the function. The
await
mechanism may be used.
Return value
A Promise
which will be resolved with the value returned by the async
function, or rejected with an exception thrown from, or uncaught within, the async
function.
Description
Async functions can contain zero or more await
expressions. Await expressions make promise-returning functions behave as though they're synchronous by suspending execution until the returned promise is fulfilled or rejected. The resolved value of the promise is treated as the return value of the await expression. Use of async
and await
enables the use of ordinary try
/ catch
blocks around asynchronous code.
Note: The await
keyword is only valid inside async functions within regular JavaScript code. If you use it outside of an async function's body, you will get a SyntaxError
.
await
can be used on its own with JavaScript modules.
Note: The purpose of async
/await
is to simplify the syntax
necessary to consume promise-based APIs. The behavior
of async
/await
is similar to combining generators and
promises.
Async functions always return a promise. If the return value of an async function is not explicitly a promise, it will be implicitly wrapped in a promise.
For example, the following:
async function foo() {
return 1
}
...is similar to:
function foo() {
return Promise.resolve(1)
}
Note:
Even though the return value of an async function behaves as if it's wrapped in a Promise.resolve
, they are not equivalent.
An async function will return a different reference, whereas Promise.resolve
returns the same reference if the given value is a promise.
It can be a problem when you want to check the equality of a promise and a return value of an async function.
const p = new Promise((res, rej) => {
res(1);
})
async function asyncReturn() {
return p;
}
function basicReturn() {
return Promise.resolve(p);
}
console.log(p === basicReturn()); // true
console.log(p === asyncReturn()); // false
The body of an async function can be thought of as being split by zero or more await expressions. Top-level code, up to and including the first await expression (if there is one), is run synchronously. In this way, an async function without an await expression will run synchronously. If there is an await expression inside the function body, however, the async function will always complete asynchronously.
For example:
async function foo() {
await 1
}
...is equivalent to:
function foo() {
return Promise.resolve(1).then(() => undefined)
}
Code after each await expression can be thought of as existing in a .then
callback. In this way a promise chain is progressively constructed with each reentrant
step through the function. The return value forms the final link in the chain.
In the following example, we successively await two promises. Progress moves through
function foo
in three stages.
-
The first line of the body of function
foo
is executed synchronously, with the await expression configured with the pending promise. Progress throughfoo
is then suspended and control is yielded back to the function that calledfoo
. -
Some time later, when the first promise has either been fulfilled or rejected,
control moves back into
foo
. The result of the first promise fulfillment (if it was not rejected) is returned from the await expression. Here1
is assigned toresult1
. Progress continues, and the second await expression is evaluated. Again, progress throughfoo
is suspended and control is yielded. -
Some time later, when the second promise has either been fulfilled or rejected,
control re-enters
foo
. The result of the second promise resolution is returned from the second await expression. Here2
is assigned toresult2
. Control moves to the return expression (if any). The default return value ofundefined
is returned as the resolution value of the current promise.
async function foo() {
const result1 = await new Promise((resolve) => setTimeout(() => resolve('1')))
const result2 = await new Promise((resolve) => setTimeout(() => resolve('2')))
}
foo()
Note how the promise chain is not built-up in one go. Instead, the promise chain is constructed in stages as control is successively yielded from and returned to the async function. As a result, we must be mindful of error handling behavior when dealing with concurrent asynchronous operations.
For example, in the following code an unhandled promise rejection error will be thrown,
even if a .catch
handler has been configured further along the promise
chain. This is because p2
will not be "wired into" the promise chain until
control returns from p1
.
async function foo() {
const p1 = new Promise((resolve) => setTimeout(() => resolve('1'), 1000))
const p2 = new Promise((_,reject) => setTimeout(() => reject('2'), 500))
const results = [await p1, await p2] // Do not do this! Use Promise.all or Promise.allSettled instead.
}
foo().catch(() => {}) // Attempt to swallow all errors...
Examples
Async functions and execution order
function resolveAfter2Seconds() {
console.log("starting slow promise")
return new Promise(resolve => {
setTimeout(function() {
resolve("slow")
console.log("slow promise is done")
}, 2000)
})
}
function resolveAfter1Second() {
console.log("starting fast promise")
return new Promise(resolve => {
setTimeout(function() {
resolve("fast")
console.log("fast promise is done")
}, 1000)
})
}
async function sequentialStart() {
console.log('==SEQUENTIAL START==')
// 1. Execution gets here almost instantly
const slow = await resolveAfter2Seconds()
console.log(slow) // 2. this runs 2 seconds after 1.
const fast = await resolveAfter1Second()
console.log(fast) // 3. this runs 3 seconds after 1.
}
async function concurrentStart() {
console.log('==CONCURRENT START with await==');
const slow = resolveAfter2Seconds() // starts timer immediately
const fast = resolveAfter1Second() // starts timer immediately
// 1. Execution gets here almost instantly
console.log(await slow) // 2. this runs 2 seconds after 1.
console.log(await fast) // 3. this runs 2 seconds after 1., immediately after 2., since fast is already resolved
}
function concurrentPromise() {
console.log('==CONCURRENT START with Promise.all==')
return Promise.all([resolveAfter2Seconds(), resolveAfter1Second()]).then((messages) => {
console.log(messages[0]) // slow
console.log(messages[1]) // fast
})
}
async function parallel() {
console.log('==PARALLEL with await Promise.all==')
// Start 2 "jobs" in parallel and wait for both of them to complete
await Promise.all([
(async()=>console.log(await resolveAfter2Seconds()))(),
(async()=>console.log(await resolveAfter1Second()))()
])
}
sequentialStart() // after 2 seconds, logs "slow", then after 1 more second, "fast"
// wait above to finish
setTimeout(concurrentStart, 4000) // after 2 seconds, logs "slow" and then "fast"
// wait again
setTimeout(concurrentPromise, 7000) // same as concurrentStart
// wait again
setTimeout(parallel, 10000) // truly parallel: after 1 second, logs "fast", then after 1 more second, "slow"
await and parallelism
In sequentialStart
, execution suspends 2 seconds for the first
await
, and then another second for the second await
. The
second timer is not created until the first has already fired, so the code finishes
after 3 seconds.
In concurrentStart
, both timers are created and then await
ed.
The timers run concurrently, which means the code finishes in 2 rather than 3 seconds,
i.e. the slowest timer.
However, the await
calls still run in series, which means the second
await
will wait for the first one to finish. In this case, the result of
the fastest timer is processed after the slowest.
If you wish to safely perform two or more jobs in parallel, you must await a call
to Promise.all
,
or
Promise.allSettled
.
Warning: The functions concurrentStart
and concurrentPromise
are not functionally equivalent.
In concurrentStart
, if promise fast
rejects before promise
slow
is fulfilled, then an unhandled promise rejection error will be
raised, regardless of whether the caller has configured a catch clause.
In concurrentPromise
, Promise.all
wires up the promise
chain in one go, meaning that the operation will fail-fast regardless of the order of
rejection of the promises, and the error will always occur within the configured
promise chain, enabling it to be caught in the normal way.
Rewriting a Promise chain with an async function
An API that returns a Promise
will result in a promise chain, and it
splits the function into many parts. Consider the following code:
function getProcessedData(url) {
return downloadData(url) // returns a promise
.catch(e => {
return downloadFallbackData(url) // returns a promise
})
.then(v => {
return processDataInWorker(v) // returns a promise
})
}
it can be rewritten with a single async function as follows:
async function getProcessedData(url) {
let v
try {
v = await downloadData(url)
} catch(e) {
v = await downloadFallbackData(url)
}
return processDataInWorker(v)
}
Alternatively, you can chain the promise with catch()
:
async function getProcessedData(url) {
const v = await downloadData(url).catch(e => {
return downloadFallbackData(url)
})
return processDataInWorker(v)
}
In the two rewritten versions, notice there is no await
statement after the
return
keyword, although that would be valid too: The return value of an
async function is implicitly wrapped in Promise.resolve
- if
it's not already a promise itself (as in the examples).
Specifications
Specification |
---|
ECMAScript Language Specification # sec-async-function-definitions |
Browser compatibility
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See also
- async function expression
AsyncFunction
objectawait
- Decorating Async Javascript Functions on innolitics.com