# Promise API

There are 4 static methods in the `Promise` class. We'll quickly cover their use cases here.

## Promise.resolve

The syntax:

```js
let promise = Promise.resolve(value);
```

Returns a resolved promise with the given `value`.

Same as:

```js
let promise = new Promise(resolve => resolve(value));
```

The method is used when we already have a value, but would like to have it "wrapped" into a promise.

For instance, the `loadCached` function below fetches the `url` and remembers the result, so that future calls on the same URL return it immediately:

```js
function loadCached(url) {
  let cache = loadCached.cache || (loadCached.cache = new Map());

  if (cache.has(url)) {
*!*
    return Promise.resolve(cache.get(url)); // (*)
*/!*
  }

  return fetch(url)
    .then(response => response.text())
    .then(text => {
      cache.set(url,text);
      return text;
    });
}
```

We can use `loadCached(url).then(…)`, because the function is guaranteed to return a promise. That's the purpose `Promise.resolve` in the line `(*)`: it makes sure the interface unified. We can always use `.then` after `loadCached`.

## Promise.reject

The syntax:

```js
let promise = Promise.reject(error);
```

Create a rejected promise with the `error`.

Same as:

```js
let promise = new Promise((resolve, reject) => reject(error));
```

We cover it here for completeness, rarely used in real code.

## Promise.all

Let's say we want to run many promises to execute in parallel, and wait till all of them are ready.

For instance, download several urls in parallel and process the content when all done.

That's what `Promise.all` is for.

The syntax is:

```js
let promise = Promise.all([...promises...]);
```

It takes an array of promises (technically can be any iterable, but usually an array) and returns a new promise.

The new promise resolves when all listed promises are settled and has an array of their results.

For instance, the `Promise.all` below settles after 3 seconds, and then its result is an array `[1, 2, 3]`:

```js run
Promise.all([
  new Promise(resolve => setTimeout(() => resolve(1), 3000)), // 1
  new Promise(resolve => setTimeout(() => resolve(2), 2000)), // 2
  new Promise(resolve => setTimeout(() => resolve(3), 1000))  // 3
]).then(alert); // 1,2,3 when promises are ready: each promise contributes an array member
```

Please note that the relative order is the same. Even though the first promise takes the longest time to resolve, it is still first in the array of results.

A common trick is to map an array of job data into an array of promises, and then wrap that into `Promise.all`.

For instance, if we have an array of URLs, we can fetch them all like this:

```js run
let urls = [
  'https://api.github.com/users/iliakan',
  'https://api.github.com/users/remy',
  'https://api.github.com/users/jeresig'
];

// map every url to the promise fetch(github url)
let requests = urls.map(url => fetch(url));

// Promise.all waits until all jobs are resolved
Promise.all(requests)
  .then(responses => responses.forEach(
    response => alert(`${response.url}: ${response.status}`)
  ));
```

A more real-life example with fetching user information for an array of github users by their names (or we could fetch an array of goods by their ids, the logic is same):

```js run
let names = ['iliakan', 'remy', 'jeresig'];

let requests = names.map(name => fetch(`https://api.github.com/users/${name}`));

Promise.all(requests)
  .then(responses => {
    // all responses are ready, we can show HTTP status codes
    for(let response of responses) {
      alert(`${response.url}: ${response.status}`); // shows 200 for every url
    }

    return responses;
  })
  // map array of responses into array of response.json() to read their content
  .then(responses => Promise.all(responses.map(r => r.json())))
  // all JSON answers are parsed: "users" is the array of them
  .then(users => users.forEach(user => alert(user.name)));
```

If any of the promises is rejected, `Promise.all` immediately rejects with that error.

For instance:

```js run
Promise.all([
  new Promise((resolve, reject) => setTimeout(() => resolve(1), 1000)),
*!*
  new Promise((resolve, reject) => setTimeout(() => reject(new Error("Whoops!")), 2000)),
*/!*
  new Promise((resolve, reject) => setTimeout(() => resolve(3), 3000))
]).catch(alert); // Error: Whoops!
```

Here the second promise rejects in two seconds. That leads to immediate rejection of `Promise.all`, so `.catch` executes: the rejection error becomes the outcome of the whole `Promise.all`.

The important detail is that promises provide no way to "cancel" or "abort" their execution. So other promises continue to execute, and the eventually settle, but all their results are ignored.

There are ways to avoid this: we can either write additional code to `clearTimeout` (or otherwise cancel) the promises in case of an error, or we can make errors show up as members in the resulting array (see the task below this chapter about it).

````smart header="`Promise.all(...)` allows non-promise items in `iterable`"
Normally, `Promise.all(...)` accepts an iterable (in most cases an array) of promises. But if any of those objects is not a promise, it's wrapped in `Promise.resolve`.

For instance, here the results are `[1, 2, 3]`:

```js run
Promise.all([
  new Promise((resolve, reject) => {
    setTimeout(() => resolve(1), 1000)
  }),
  2, // treated as Promise.resolve(2)
  3  // treated as Promise.resolve(3)
]).then(alert); // 1, 2, 3
```

So we are able to pass non-promise values to `Promise.all` where convenient.

````

## Promise.race

Similar to `Promise.all` takes an iterable of promises, but instead of waiting for all of them to finish -- waits for the first result (or error), and goes on with it.

The syntax is:

```js
let promise = Promise.race(iterable);
```

For instance, here the result will be `1`:

```js run
Promise.race([
  new Promise((resolve, reject) => setTimeout(() => resolve(1), 1000)),
  new Promise((resolve, reject) => setTimeout(() => reject(new Error("Whoops!")), 2000)),
  new Promise((resolve, reject) => setTimeout(() => resolve(3), 3000))
]).then(alert); // 1
```

So, the first result/error becomes the result of the whole `Promise.race`. After the first settled promise "wins the race", all further results/errors are ignored.

## Summary

There are 4 static methods of `Promise` class:

1. `Promise.resolve(value)` -- makes a resolved promise with the given value,
2. `Promise.reject(error)` -- makes a rejected promise with the given error,
3. `Promise.all(promises)` -- waits for all promises to resolve and returns an array of their results. If any of the given promises rejects, then it becomes the error of `Promise.all`, and all other results are ignored.
4. `Promise.race(promises)` -- waits for the first promise to settle, and its result/error becomes the outcome.

Of these four, `Promise.all` is the most common in practice.