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Introduction to React Promises [with Examples] |
Today, we're going to look at what we need to know to understand Promises from a high-level, so we can build our applications using this incredibly useful concept. |
15 |
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Wed Oct 18 2016 21:29:42 GMT-0700 (PDT) |
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./../_params.yaml |
Yesterday we installed the fetch
library into our create-react-app
project we started on day 12. Today we'll pick up from yesterday discussing the concept and the art of Promises.
As defined by the Mozilla, a Promise
object is used for handling asynchronous computations which has some important guarantees that are difficult to handle with the callback method (the more old-school method of handling asynchronous code).
A Promise
object is simply a wrapper around a value that may or may not be known when the object is instantiated and provides a method for handling the value after it is known (also known as resolved
) or is unavailable for a failure reason (we'll refer to this as rejected
).
Using a Promise
object gives us the opportunity to associate functionality for an asynchronous operation's eventual success or failure (for whatever reason). It also allows us to treat these complex scenarios by using synchronous-like code.
For instance, consider the following synchronous code where we print out the current time in the JavaScript console:
var currentTime = new Date();
console.log('The current time is: ' + currentTime);
This is pretty straight-forward and works as the new Date()
object represents the time the browser knows about. Now consider that we're using a different clock on some other remote machine. For instance, if we're making a Happy New Years clock, it would be great to be able to synchronize the user's browser with everyone elses using a single time value for everyone so no-one misses the ball dropping ceremony.
Suppose we have a method that handles getting the current time for the clock called getCurrentTime()
that fetches the current time from a remote server. We'll represent this now with a setTimeout()
that returns the time (like it's making a request to a slow API):
function getCurrentTime() {
// Get the current 'global' time from an API
return setTimeout(function() {
return new Date();
}, 2000);
}
var currentTime = getCurrentTime()
console.log('The current time is: ' + currentTime);
Our console.log()
log value will return the timeout handler id, which is definitely not the current time. Traditionally, we can update the code using a callback to get called when the time is available:
function getCurrentTime(callback) {
// Get the current 'global' time from an API
return setTimeout(function() {
var currentTime = new Date();
callback(currentTime);
}, 2000);
}
getCurrentTime(function(currentTime) {
console.log('The current time is: ' + currentTime);
});
What if there is an error with the rest? How do we catch the error and define a retry or error state?
function getCurrentTime(onSuccess, onFail) {
// Get the current 'global' time from an API
return setTimeout(function() {
// randomly decide if the date is retrieved or not
var didSucceed = Math.random() >= 0.5;
if (didSucceed) {
var currentTime = new Date();
onSuccess(currentTime);
} else {
onFail('Unknown error');
}
}, 2000);
}
getCurrentTime(function(currentTime) {
console.log('The current time is: ' + currentTime);
}, function(error) {
console.log('There was an error fetching the time');
});
Now, what if we want to make a request based upon the first request's value? As a short example, let's reuse the getCurrentTime()
function inside again (as though it were a second method, but allows us to avoid adding another complex-looking function):
function getCurrentTime(onSuccess, onFail) {
// Get the current 'global' time from an API
return setTimeout(function() {
// randomly decide if the date is retrieved or not
var didSucceed = Math.random() >= 0.5;
console.log(didSucceed);
if (didSucceed) {
var currentTime = new Date();
onSuccess(currentTime);
} else {
onFail('Unknown error');
}
}, 2000);
}
getCurrentTime(function(currentTime) {
getCurrentTime(function(newCurrentTime) {
console.log('The real current time is: ' + currentTime);
}, function(nestedError) {
console.log('There was an error fetching the second time');
})
}, function(error) {
console.log('There was an error fetching the time');
});
Dealing with asynchronousity in this way can get complex quickly. In addition, we could be fetching values from a previous function call, what if we only want to get one... there are a lot of tricky cases to deal with when dealing with values that are not yet available when our app starts.
Using promises, on the other hand helps us avoid a lot of this complexity (although is not a silver bullet solution). The previous code, which could be called spaghetti code can be turned into a neater, more synchronous-looking version:
function getCurrentTime() {
// Get the current 'global' time from an API using Promise
return new Promise((resolve, reject) => {
setTimeout(function() {
var didSucceed = Math.random() >= 0.5;
didSucceed ? resolve(new Date()) : reject('Error');
}, 2000);
})
}
getCurrentTime()
.then(currentTime => getCurrentTime())
.then(currentTime => {
console.log('The current time is: ' + currentTime);
return true;
})
.catch(err => console.log('There was an error:' + err))
This previous source example is a bit cleaner and clear as to what's going on and avoids a lot of tricky error handling/catching.
To catch the value on success, we'll use the then()
function available on the Promise
instance object. The then()
function is called with whatever the return value is of the promise itself. For instance, in the example above, the getCurrentTime()
function resolves with the currentTime()
value (on successful completion) and calls the then()
function on the return value (which is another promise) and so on and so forth.
To catch an error that occurs anywhere in the promise chain, we can use the catch()
method.
We're using a promise chain in the above example to create a chain of actions to be called one after another. A promise chain sounds complex, but it's fundamentally simple. Essentially, we can "synchronize" a call to multiple asynchronous operations in succession. Each call to
then()
is called with the previousthen()
function's return value.For instance, if we wanted to manipulate the value of the
getCurrentTime()
call, we can add a link in the chain, like so:getCurrentTime() .then(currentTime => getCurrentTime()) .then(currentTime => { return 'It is now: ' + currentTime; }) // this logs: "It is now: [current time]" .then(currentTimeMessage => console.log(currentTimeMessage)) .catch(err => console.log('There was an error:' + err))
A promise only ever has one of three states at any given time:
- pending
- fulfilled (resolved)
- rejected (error)
A pending promise can only ever lead to either a fulfilled state or a rejected state once and only once, which can avoid some pretty complex error scenarios. This means that we can only ever return a promise once. If we want to rerun a function that uses promises, we need to create a new one.
We can create new promises (as the example shows above) using the Promise
constructor. It accepts a function that will get run with two parameters:
- The
onSuccess
(orresolve
) function to be called on success resolution - The
onFail
(orreject
) function to be called on failure rejection
Recalling our function from above, we can see that we call the resolve()
function if the request succeeded and call the reject()
function if the method returns an error condition.
var promise = new Promise(function(resolve, reject) {
// call resolve if the method succeeds
resolve(true);
})
promise.then(bool => console.log('Bool is true'))
Now that we know what promises are, how to use, and how to create them, we can actually get down to using the fetch()
library we installed yesterday.
dd