Promises

Promises

JavaScript is single threaded, meaning that two bits of script cannot run at the same time; they have to run one after another. In browsers, JavaScript shares a thread with a load of other stuff that differs from browser to browser. But typically JavaScript is in the same queue as painting, updating styles, and handling user actions (such as highlighting text and interacting with form controls). Activity in one of these things delays the others.

As a human being, you're multithreaded. You can type with multiple fingers, you can drive and hold a conversation at the same time. The only blocking function we have to deal with is sneezing, where all current activity must be suspended for the duration of the sneeze. That's pretty annoying, especially when you're driving and trying to hold a conversation. You don't want to write code that's sneezy.

You've probably used events and callbacks to get around this. Here are events:

//var img1 = document.querySelector('.img-1');
img1.addEventListener('load', function () {// woo yey image loaded});
img1.addEventListener('error', function () {// argh everything's broken});

This isn't sneezy at all. We get the image, add a couple of listeners, then JavaScript can stop executing until one of those listeners is called.

Unfortunately, in the example above, it's possible that the events happened before we started listening for them, so we need to work around that using the "complete" property of images:

//var img1 = document.querySelector('.img-1');function loaded() {// woo yey image loaded}if (img1.complete) {loaded();}else {
img1.addEventListener('load', loaded);}img1.addEventListener('error', function() {// argh everything's broken});

This doesn't catch images that errored before we got a chance to listen for them; unfortunately the DOM doesn't give us a way to do that. Also, this is loading one image. Things get even more complex if we want to know when a set of images have loaded.

Events aren't always the best way #

Events are great for things that can happen multiple times on the same object---keyup, touchstart etc. With those events you don't really care about what happened before you attached the listener. But when it comes to async success/failure, ideally you want something like this:

//
img1.callThisIfLoadedOrWhenLoaded(function() {// loaded}).orIfFailedCallThis(function() {// failed});// and...whenAllTheseHaveLoaded([img1, img2]).callThis(function() {// all loaded}).orIfSomeFailedCallThis(function() {// one or more failed});

This is what promises do, but with better naming. If HTML image elements had a "ready" method that returned a promise, we could do this:

//
img1.ready().then(function() {// loaded}, function() {// failed});// and...Promise.all([img1.ready(), img2.ready()]).then(function() {// all loaded}, function() {// one or more failed});

At their most basic, promises are a bit like event listeners except:

• A promise can only succeed or fail once. It cannot succeed or fail twice, neither can it switch from success to failure or vice versa.
• If a promise has succeeded or failed and you later add a success/failure callback, the correct callback will be called, even though the event took place earlier.

This is extremely useful for async success/failure, because you're less interested in the exact time something became available, and more interested in reacting to the outcome.

Promise terminology #

Domenic Denicola proof read the first draft of this article and graded me "F" for terminology. He put me in detention, forced me to copy out States and Fates 100 times, and wrote a worried letter to my parents. Despite that, I still get a lot of the terminology mixed up, but here are the basics:

A promise can be:

• fulfilled - The action relating to the promise succeeded
• rejected - The action relating to the promise failed
• pending - Hasn't fulfilled or rejected yet
• settled - Has fulfilled or rejected

The spec also uses the term thenable to describe an object that is promise-like, in that it has a then method. This term reminds me of ex-England Football Manager Terry Venables so I'll be using it as little as possible.

Promises arrive in JavaScript! #

Promises have been around for a while in the form of libraries, such as:

• Q
• when
• WinJS
• RSVP.js

The above and JavaScript promises share a common, standardized behaviour called Promises/A+. If you're a jQuery user, they have something similar called Deferreds. However, Deferreds aren't Promise/A+ compliant, which makes them subtly different and less useful, so beware. jQuery also has a Promise type, but this is just a subset of Deferred and has the same issues.

Although promise implementations follow a standardized behaviour, their overall APIs differ. JavaScript promises are similar in API to RSVP.js. Here's how you create a promise:

//var promise = new Promise(function(resolve, reject) {// do a thing, possibly async, then...  if (/* everything turned out fine */) {resolve("Stuff worked!");}  else {reject(Error("It broke"));}});

The promise constructor takes one argument, a callback with two parameters, resolve and reject. Do something within the callback, perhaps async, then call resolve if everything worked, otherwise call reject.

Like throw in plain old JavaScript, it's customary, but not required, to reject with an Error object. The benefit of Error objects is they capture a stack trace, making debugging tools more helpful.

Here's how you use that promise:

//
promise.then(function (result) {
    console.log(result);// "Stuff worked!"}, function(err) {
    console.log(err);// Error: "It broke"});

then() takes two arguments, a callback for a success case, and another for the failure case. Both are optional, so you can add a callback for the success or failure case only.

JavaScript promises started out in the DOM as "Futures", renamed to "Promises", and finally moved into JavaScript. Having them in JavaScript rather than the DOM is great because they'll be available in non-browser JS contexts such as Node.js (whether they make use of them in their core APIs is another question).

Although they're a JavaScript feature, the DOM isn't afraid to use them. In fact, all new DOM APIs with async success/failure methods will use promises. This is happening already with Quota Management, Font Load Events, ServiceWorker, Web MIDI, Streams, and more.

Browser support & polyfill #

There are already implementations of promises in browsers today.

As of Chrome 32, Opera 19, Firefox 29, Safari 8 & Microsoft Edge, promises are enabled by default.

To bring browsers that lack a complete promises implementation up to spec compliance, or add promises to other browsers and Node.js, check out the polyfill (2k gzipped).

Compatibility with other libraries #

The JavaScript promises API will treat anything with a then() method as promise-like (or thenable in promise-speak sigh), so if you use a library that returns a Q promise, that's fine, it'll play nice with the new JavaScript promises.

Although, as I mentioned, jQuery's Deferreds are a bit ... unhelpful. Thankfully you can cast them to standard promises, which is worth doing as soon as possible:

//var jsPromise = Promise.resolve($.ajax('/whatever.json'));

Here, jQuery's $.ajax returns a Deferred. Since it has a then() method, Promise.resolve() can turn it into a JavaScript promise. However, sometimes deferreds pass multiple arguments to their callbacks, for example:

//var jqDeferred = $.ajax('/whatever.json');
jqDeferred.then(function(response, statusText, xhrObj) {// ...}, function(xhrObj, textStatus, err) {// ...})

Whereas JS promises ignore all but the first:

//
jsPromise.then(function(response) {// ...}, function(xhrObj) {// ...})

Thankfully this is usually what you want, or at least gives you access to what you want. Also, be aware that jQuery doesn't follow the convention of passing Error objects into rejections.

Complex async code made easier #

Right, let's code some things. Say we want to:

1. Start a spinner to indicate loading
2. Fetch some JSON for a story, which gives us the title, and urls for each chapter
3. Add title to the page
4. Fetch each chapter
5. Add the story to the page
6. Stop the spinner

... but also tell the user if something went wrong along the way. We'll want to stop the spinner at that point too, else it'll keep on spinning, get dizzy, and crash into some other UI.

Of course, you wouldn't use JavaScript to deliver a story, serving as HTML is faster, but this pattern is pretty common when dealing with APIs: Multiple data fetches, then do something when it's all done.

To start with, let's deal with fetching data from the network:

Promisifying XMLHttpRequest #

Old APIs will be updated to use promises, if it's possible in a backwards compatible way. XMLHttpRequest is a prime candidate, but in the mean time let's write a simple function to make a GET request:

//function get(url) {// Return a new promise.return new Promise(function (resolve, reject) {// Do the usual XHR stuffvar req = new XMLHttpRequest();

        req.open('GET', url);

        req.onload = function () {// This is called even on 404 etc// so check the statusif (req.status == 200) {// Resolve the promise with the response textresolve(req.response);} else {// Otherwise reject with the status text// which will hopefully be a meaningful errorreject(Error(req.statusText));}};// Handle network errors
        req.onerror = function () {reject(Error('Network Error'));};// Make the request
        req.send();});}

Now let's use it:

//get('story.json').then(function (response) {
        console.log('Success!', response);},function (error) {
        console.error('Failed!', error);});

Now we can make HTTP requests without manually typing XMLHttpRequest, which is great, because the less I have to see the infuriating camel-casing of XMLHttpRequest, the happier my life will be.

Chaining #

then() isn't the end of the story, you can chain thens together to transform values or run additional async actions one after another.

Transforming values #

You can transform values simply by returning the new value:

//var promise = new Promise(function (resolve, reject) {resolve(1);});

promise
    .then(function (val) {
        console.log(val);// 1return val + 2;}).then(function (val) {
        console.log(val);// 3});

As a practical example, let's go back to:

//get('story.json').then(function (response) {
    console.log('Success!', response);});

The response is JSON, but we're currently receiving it as plain text. We could alter our get function to use the JSON responseType, but we could also solve it in promises land:

//get('story.json').then(function (response) {return JSON.parse(response);}).then(function (response) {
        console.log('Yey JSON!', response);});

Since JSON.parse() takes a single argument and returns a transformed value, we can make a shortcut:

//get('story.json').then(JSON.parse).then(function (response) {
        console.log('Yey JSON!', response);});

In fact, we could make a getJSON() function really easily:

//function getJSON(url) {return get(url).then(JSON.parse);}

getJSON() still returns a promise, one that fetches a url then parses the response as JSON.

Queuing asynchronous actions #

You can also chain thens to run async actions in sequence.

When you return something from a then() callback, it's a bit magic. If you return a value, the next then() is called with that value. However, if you return something promise-like, the next then() waits on it, and is only called when that promise settles (succeeds/fails). For example:

//getJSON('story.json').then(function (story) {return getJSON(story.chapterUrls[0]);}).then(function (chapter1) {
        console.log('Got chapter 1!', chapter1);});

Here we make an async request to story.json, which gives us a set of URLs to request, then we request the first of those. This is when promises really start to stand out from simple callback patterns.

You could even make a shortcut method to get chapters:

//var storyPromise;function getChapter(i) {
    storyPromise = storyPromise || getJSON('story.json');return storyPromise.then(function (story) {return getJSON(story.chapterUrls[i]);});}// and using it is simple:getChapter(0).then(function (chapter) {
        console.log(chapter);return getChapter(1);}).then(function (chapter) {
        console.log(chapter);});

We don't download story.json until getChapter is called, but the next time(s) getChapter is called we reuse the story promise, so story.json is only fetched once. Yay Promises!

Error handling #

As we saw earlier, then() takes two arguments, one for success, one for failure (or fulfill and reject, in promises-speak):

//get('story.json').then(function (response) {
        console.log('Success!', response);},function (error) {
        console.log('Failed!', error);});

You can also use catch():

//get('story.json').then(function (response) {
        console.log('Success!', response);}).catch(function (error) {
        console.log('Failed!', error);});

There's nothing special about catch(), it's just sugar for then(undefined, func), but it's more readable. Note that the two code examples above do not behave the same, the latter is equivalent to:

//get('story.json').then(function (response) {
        console.log('Success!', response);}).then(undefined, function (error) {
        console.log('Failed!', error);});

The difference is subtle, but extremely useful. Promise rejections skip forward to the next then() with a rejection callback (or catch(), since it's equivalent). With then(func1, func2), func1 or func2 will be called, never both. But with then(func1).catch(func2), both will be called if func1 rejects, as they're separate steps in the chain. Take the following:

//asyncThing1().then(function () {return asyncThing2();}).then(function () {return asyncThing3();}).catch(function (err) {return asyncRecovery1();}).then(function () {return asyncThing4();},function (err) {return asyncRecovery2();}).catch(function (err) {
        console.log("Don't worry about it");}).then(function () {
        console.log('All done!');});

The flow above is very similar to normal JavaScript try/catch, errors that happen within a "try" go immediately to the catch() block. Here's the above as a flowchart (because I love flowcharts):

Follow the blue lines for promises that fulfill, or the red for ones that reject.

JavaScript exceptions and promises #

Rejections happen when a promise is explicitly rejected, but also implicitly if an error is thrown in the constructor callback:

//var jsonPromise = new Promise(function (resolve, reject) {// JSON.parse throws an error if you feed it some  // invalid JSON, so this implicitly rejects:  resolve(JSON.parse("This ain't JSON"));});
jsonPromise
    .then(function (data) {// This never happens:  console.log("It worked!", data);}).catch(function (err) {// Instead, this happens:  console.log("It failed!", err);});

This means it's useful to do all your promise-related work inside the promise constructor callback, so errors are automatically caught and become rejections.

The same goes for errors thrown in then() callbacks.

get('/').then(JSON.parse).then(function() {
// This never happens, '/' is an HTML page, not JSON  // so JSON.parse throws  console.log("It worked!", data);
}).catch(function(err) {
// Instead, this happens:  console.log("It failed!", err);
})

Error handling in practice #

With our story and chapters, we can use catch to display an error to the user:

//getJSON('story.json').then(function (story) {return getJSON(story.chapterUrls[0]);}).then(function (chapter1) {addHtmlToPage(chapter1.html);}).catch(function () {addTextToPage('Failed to show chapter');}).then(function () {
        document.querySelector('.spinner').style.display = 'none';});

If fetching story.chapterUrls[0] fails (e.g., http 500 or user is offline), it'll skip all following success callbacks, which includes the one in getJSON() which tries to parse the response as JSON, and also skips the callback that adds chapter1.html to the page. Instead it moves onto the catch callback. As a result, "Failed to show chapter" will be added to the page if any of the previous actions failed.

Like JavaScript's try/catch, the error is caught and subsequent code continues, so the spinner is always hidden, which is what we want. The above becomes a non-blocking async version of:

//try {var story = getJSONSync('story.json');var chapter1 = getJSONSync(story.chapterUrls[0]);addHtmlToPage(chapter1.html);} catch (e) {addTextToPage('Failed to show chapter');}
document.querySelector('.spinner').style.display = 'none';

You may want to catch() simply for logging purposes, without recovering from the error. To do this, just rethrow the error. We could do this in our getJSON() method:

//function getJSON(url) {return get(url).then(JSON.parse).catch(function (err) {
            console.log('getJSON failed for', url, err);throw err;});}

So we've managed to fetch one chapter, but we want them all. Let's make that happen.

Parallelism and sequencing: getting the best of both #

Thinking async isn't easy. If you're struggling to get off the mark, try writing the code as if it were synchronous. In this case:

//try {var story = getJSONSync('story.json');addHtmlToPage(story.heading);
    story.chapterUrls.forEach(function (chapterUrl) {var chapter = getJSONSync(chapterUrl);addHtmlToPage(chapter.html);});addTextToPage('All done');} catch (err) {addTextToPage('Argh, broken: ' + err.message);}
document.querySelector('.spinner').style.display = 'none';

That works! But it's sync and locks up the browser while things download. To make this work async we use then() to make things happen one after another.

getJSON('story.json').then(function(story) {
addHtmlToPage(story.heading);
  // TODO: for each url in story.chapterUrls, fetch & display}).then(function() {
// And we're all done!  addTextToPage("All done");
}).catch(function(err) {
// Catch any error that happened along the way  addTextToPage("Argh, broken: " + err.message);
}).then(function() {
// Always hide the spinner  document.querySelector('.spinner').style.display = 'none';})

But how can we loop through the chapter urls and fetch them in order? This doesn't work:

//
story.chapterUrls.forEach(function(chapterUrl) {// Fetch chapter  getJSON(chapterUrl).then(function(chapter) {// and add it to the page    addHtmlToPage(chapter.html);});})

forEach isn't async-aware, so our chapters would appear in whatever order they download, which is basically how Pulp Fiction was written. This isn't Pulp Fiction, so let's fix it.

Creating a sequence #

We want to turn our chapterUrls array into a sequence of promises. We can do that using then():

//// Start off with a promise that always resolvesvar sequence = Promise.resolve();// Loop through our chapter urlsstory.chapterUrls.forEach(function(chapterUrl) {// Add these actions to the end of the sequence  sequence = sequence.then(function() {return getJSON(chapterUrl);}).then(function(chapter) {addHtmlToPage(chapter.html);});})

This is the first time we've seen Promise.resolve(), which creates a promise that resolves to whatever value you give it. If you pass it an instance of Promise it'll simply return it (note: this is a change to the spec that some implementations don't yet follow). If you pass it something promise-like (has a then() method), it creates a genuine Promise that fulfills/rejects in the same way. If you pass in any other value, e.g., Promise.resolve('Hello'), it creates a promise that fulfills with that value. If you call it with no value, as above, it fulfills with "undefined".

There's also Promise.reject(val), which creates a promise that rejects with the value you give it (or undefined).

We can tidy up the above code using array.reduce:

//// Loop through our chapter urlsstory.chapterUrls.reduce(function(sequence, chapterUrl) {// Add these actions to the end of the sequence  return sequence.then(function() {return getJSON(chapterUrl);}).then(function(chapter) {addHtmlToPage(chapter.html);});}, Promise.resolve())

This is doing the same as the previous example, but doesn't need the separate "sequence" variable. Our reduce callback is called for each item in the array. "sequence" is Promise.resolve() the first time around, but for the rest of the calls "sequence" is whatever we returned from the previous call. array.reduce is really useful for boiling an array down to a single value, which in this case is a promise.

Let's put it all together:

//getJSON('story.json').then(function(story) {addHtmlToPage(story.heading);return story.chapterUrls.reduce(function(sequence, chapterUrl) {// Once the last chapter's promise is done...    return sequence.then(function() {// ...fetch the next chapter      return getJSON(chapterUrl);}).then(function(chapter) {// and add it to the page      addHtmlToPage(chapter.html);});}, Promise.resolve());}).then(function() {// And we're all done!  addTextToPage("All done");}).catch(function(err) {// Catch any error that happened along the way  addTextToPage("Argh, broken: " + err.message);}).then(function() {// Always hide the spinner  document.querySelector('.spinner').style.display = 'none';})

And there we have it, a fully async version of the sync version. But we can do better. At the moment our page is downloading like this:

Browsers are pretty good at downloading multiple things at once, so we're losing performance by downloading chapters one after the other. What we want to do is download them all at the same time, then process them when they've all arrived. Thankfully there's an API for this:

//
Promise.all(arrayOfPromises).then(function(arrayOfResults) {//...})

Promise.all takes an array of promises and creates a promise that fulfills when all of them successfully complete. You get an array of results (whatever the promises fulfilled to) in the same order as the promises you passed in.

getJSON('story.json').then(function(story) {
addHtmlToPage(story.heading);
  // Take an array of promises and wait on them all  return Promise.all(    // Map our array of chapter urls to    // an array of chapter json promises    story.chapterUrls.map(getJSON)  );
}).then(function(chapters) {
// Now we have the chapters jsons in order! Loop through...  chapters.forEach(function(chapter) {
  // ...and add to the page    addHtmlToPage(chapter.html);

});
  addTextToPage("All done");
}).catch(function(err) {
// catch any error that happened so far  addTextToPage("Argh, broken: " + err.message);
}).then(function() {
document.querySelector('.spinner').style.display = 'none';})

Depending on connection, this can be seconds faster than loading one-by-one, and it's less code than our first try. The chapters can download in whatever order, but they appear on screen in the right order.

However, we can still improve perceived performance. When chapter one arrives we should add it to the page. This lets the user start reading before the rest of the chapters have arrived. When chapter three arrives, we wouldn't add it to the page because the user may not realize chapter two is missing. When chapter two arrives, we can add chapters two and three, etc etc.

To do this, we fetch JSON for all our chapters at the same time, then create a sequence to add them to the document:

//getJSON('story.json').then(function(story) {addHtmlToPage(story.heading);// Map our array of chapter urls to  // an array of chapter json promises.  // This makes sure they all download in parallel.  return story.chapterUrls.map(getJSON)    .reduce(function(sequence, chapterPromise) {// Use reduce to chain the promises together,      // adding content to the page for each chapter      return sequence      .then(function() {// Wait for everything in the sequence so far,        // then wait for this chapter to arrive.        return chapterPromise;      }).then(function(chapter) {addHtmlToPage(chapter.html);});}, Promise.resolve());}).then(function() {addTextToPage("All done");}).catch(function(err) {// catch any error that happened along the way  addTextToPage("Argh, broken: " + err.message);}).then(function() {
document.querySelector('.spinner').style.display = 'none';})

Async Await:

//jsfunction hello() { return "Hello" };hello();

//jsasync function hello() { return "Hello" };hello();

//jslet hello = async function() { return "Hello" };hello();

//jslet hello = async () => "Hello";

//jshello().then((value) => console.log(value))

//hello().then(console.log);

//jsasync function hello() {return await Promise.resolve("Hello");};hello().then(alert);

//jsfetch('coffee.jpg').then(response => {if (!response.ok) {throw new Error(`HTTP error! status: ${response.status}`);}return response.blob();}).then(myBlob => {let objectURL = URL.createObjectURL(myBlob);let image = document.createElement('img');

    image.src = objectURL;
    document.body.appendChild(image);}).catch(e => {
    console.log('There has been a problem with your fetch operation: ' + e.message);});

//jsasync function myFetch() {let response = await fetch('coffee.jpg');if (!response.ok) {throw new Error(`HTTP error! status: ${response.status}`);}let myBlob = await response.blob();let objectURL = URL.createObjectURL(myBlob);let image = document.createElement('img');

  image.src = objectURL;
  document.body.appendChild(image);}myFetch().catch(e => {
    console.log('There has been a problem with your fetch operation: ' + e.message);});

//jsasync function myFetch() {let response = await fetch('coffee.jpg');if (!response.ok) {throw new Error(`HTTP error! status: ${response.status}`);}return await response.blob();}myFetch().then(blob => {let objectURL = URL.createObjectURL(blob);let image = document.createElement('img');

    image.src = objectURL;
    document.body.appendChild(image);}).catch(e => console.log(e));

//jslet response = await fetch('coffee.jpg');

//jsasync function myFetch() {try {let response = await fetch('coffee.jpg');if (!response.ok) {throw new Error(`HTTP error! status: ${response.status}`);}let myBlob = await response.blob();let objectURL = URL.createObjectURL(myBlob);let image = document.createElement('img');

    image.src = objectURL;
    document.body.appendChild(image);} catch(e) {
    console.log(e);}}myFetch();

//jsasync function myFetch() {let response = await fetch('coffee.jpg');if (!response.ok) {throw new Error(`HTTP error! status: ${response.status}`);}return await response.blob();}myFetch().then(blob => {let objectURL = URL.createObjectURL(blob);let image = document.createElement('img');

    image.src = objectURL;
    document.body.appendChild(image);}).catch(e => console.log(e));

//jsasync function fetchAndDecode(url, type) {let response = await fetch(url);let content;if (!response.ok) {throw new Error(`HTTP error! status: ${response.status}`);} else {if(type === 'blob') {
      content = await response.blob();} else if(type === 'text') {
      content = await response.text();}}return content;}async function displayContent() {let coffee = fetchAndDecode('coffee.jpg', 'blob');let tea = fetchAndDecode('tea.jpg', 'blob');let description = fetchAndDecode('description.txt', 'text');let values = await Promise.all([coffee, tea, description]);let objectURL1 = URL.createObjectURL(values[0]);let objectURL2 = URL.createObjectURL(values[1]);let descText = values[2];let image1 = document.createElement('img');let image2 = document.createElement('img');

  image1.src = objectURL1;
  image2.src = objectURL2;
  document.body.appendChild(image1);

  document.body.appendChild(image2);let para = document.createElement('p');

  para.textContent = descText;
  document.body.appendChild(para);}displayContent().catch(e => console.log(e));

//jslet values = await Promise.all([coffee, tea, description]);

//jsasync function makeResult(items) {let newArr = [];for(let i = 0; i < items.length; i++) {
    newArr.push('word_' + i);}return newArr;}async function getResult() {let result = await makeResult(items);// Blocked on this lineuseThatResult(result);// Will not be executed before makeResult() is done}

//jsfunction timeoutPromise(interval) {return new Promise((resolve, reject) => {setTimeout(function(){resolve("done");}, interval);});};

//jsasync function timeTest() {...}

//jslet startTime = Date.now();timeTest().then(() => {let finishTime = Date.now();let timeTaken = finishTime - startTime;alert("Time taken in milliseconds: " + timeTaken);})

//jsasync function timeTest() {await timeoutPromise(3000);await timeoutPromise(3000);await timeoutPromise(3000);}

//jsasync function timeTest() {const timeoutPromise1 = timeoutPromise(3000);const timeoutPromise2 = timeoutPromise(3000);const timeoutPromise3 = timeoutPromise(3000);await timeoutPromise1;await timeoutPromise2;await timeoutPromise3;}

//jsfunction timeoutPromiseResolve(interval) {return new Promise((resolve, reject) => {setTimeout(function(){resolve("successful");}, interval);});};function timeoutPromiseReject(interval) {return new Promise((resolve, reject) => {setTimeout(function(){reject("error");}, interval);});};async function timeTest() {await timeoutPromiseResolve(5000);await timeoutPromiseReject(2000);await timeoutPromiseResolve(3000);}let startTime = Date.now();timeTest().then(() => {}).catch(e => {
    console.log(e);let finishTime = Date.now();let timeTaken = finishTime - startTime;alert("Time taken in milliseconds: " + timeTaken);})

//jsfunction timeoutPromiseResolve(interval) {return new Promise((resolve, reject) => {setTimeout(function(){resolve("successful");}, interval);});};function timeoutPromiseReject(interval) {return new Promise((resolve, reject) => {setTimeout(function(){reject("error");}, interval);});};async function timeTest() {const timeoutPromiseResolve1 = timeoutPromiseResolve(5000);const timeoutPromiseReject2 = timeoutPromiseReject(2000);const timeoutPromiseResolve3 = timeoutPromiseResolve(3000);await timeoutPromiseResolve1;await timeoutPromiseReject2;await timeoutPromiseResolve3;}let startTime = Date.now();timeTest().then(() => {}).catch(e => {
    console.log(e);let finishTime = Date.now();let timeTaken = finishTime - startTime;alert("Time taken in milliseconds: " + timeTaken);})

//jsfunction timeoutPromiseResolve(interval) {return new Promise((resolve, reject) => {setTimeout(function(){resolve("successful");}, interval);});};function timeoutPromiseReject(interval) {return new Promise((resolve, reject) => {setTimeout(function(){reject("error");}, interval);});};async function timeTest() {const timeoutPromiseResolve1 = timeoutPromiseResolve(5000);const timeoutPromiseReject2 = timeoutPromiseReject(2000);const timeoutPromiseResolve3 = timeoutPromiseResolve(3000);const results = await Promise.all([timeoutPromiseResolve1, timeoutPromiseReject2, timeoutPromiseResolve3]);return results;}let startTime = Date.now();timeTest().then(() => {}).catch(e => {
    console.log(e);let finishTime = Date.now();let timeTaken = finishTime - startTime;alert("Time taken in milliseconds: " + timeTaken);})

//jsclass Person {constructor(first, last, age, gender, interests) {this.name = {
      first,
      last
    };this.age = age;this.gender = gender;this.interests = interests;}async greeting() {return await Promise.resolve(`Hi! I'm ${this.name.first}`);};farewell() {
    console.log(`${this.name.first} has left the building. Bye for now!`);};}let han = new Person('Han', 'Solo', 25, 'male', ['Smuggling']);

//js
han.greeting().then(console.log);