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URL objects

The built-in URL class provides a convenient interface for creating and parsing URLs.

There are no networking methods that require exactly a URL object, strings are good enough. So technically we don't have to use URL. But sometimes it can be really helpful.

Creating a URL

The syntax to create a new URL object:

new URL(url, [base])
  • url -- the full URL or only path (if base is set, see below),
  • base -- an optional base URL: if set and url argument has only path, then the URL is generated relative to base.

For example:

let url = new URL('https://javascript.info/profile/admin');

These two URLs are same:

let url1 = new URL('https://javascript.info/profile/admin');
let url2 = new URL('/profile/admin', 'https://javascript.info');

alert(url1); // https://javascript.info/profile/admin
alert(url2); // https://javascript.info/profile/admin

We can easily create a new URL based on the path relative to an existing URL:

let url = new URL('https://javascript.info/profile/admin');
let newUrl = new URL('tester', url);

alert(newUrl); // https://javascript.info/profile/tester

The URL object immediately allows us to access its components, so it's a nice way to parse the url, e.g.:

let url = new URL('https://javascript.info/url');

alert(url.protocol); // https:
alert(url.host);     // javascript.info
alert(url.pathname); // /url

Here's the cheatsheet for URL components:

  • href is the full url, same as url.toString()
  • protocol ends with the colon character :
  • search - a string of parameters, starts with the question mark ?
  • hash starts with the hash character #
  • there may be also user and password properties if HTTP authentication is present: http://login:[email protected] (not painted above, rarely used).

```smart header="We can pass URL objects to networking (and most other) methods instead of a string" We can use a `URL` object in `fetch` or `XMLHttpRequest`, almost everywhere where a URL-string is expected.

Generally, URL object can be passed to any method instead of a string, as most method will perform the string conversion, that turns a URL object into a string with full URL.


## SearchParams "?..."

Let's say we want to create a url with given search params, for instance, `https://google.com/search?query=JavaScript`.

We can provide them in the URL string:

```js
new URL('https://google.com/search?query=JavaScript')

...But parameters need to be encoded if they contain spaces, non-latin letters, etc (more about that below).

So there's URL property for that: url.searchParams, an object of type URLSearchParams.

It provides convenient methods for search parameters:

  • append(name, value) -- add the parameter by name,
  • delete(name) -- remove the parameter by name,
  • get(name) -- get the parameter by name,
  • getAll(name) -- get all parameters with the same name (that's possible, e.g. ?user=John&user=Pete),
  • has(name) -- check for the existence of the parameter by name,
  • set(name, value) -- set/replace the parameter,
  • sort() -- sort parameters by name, rarely needed,
  • ...and it's also iterable, similar to Map.

An example with parameters that contain spaces and punctuation marks:

let url = new URL('https://google.com/search');

url.searchParams.set('q', 'test me!'); // added parameter with a space and !

alert(url); // https://google.com/search?q=test+me%21

url.searchParams.set('tbs', 'qdr:y'); // added parameter with a colon :

// parameters are automatically encoded
alert(url); // https://google.com/search?q=test+me%21&tbs=qdr%3Ay

// iterate over search parameters (decoded)
for(let [name, value] of url.searchParams) {
  alert(`${name}=${value}`); // q=test me!, then tbs=qdr:y
}

Encoding

There's a standard RFC3986 that defines which characters are allowed in URLs and which are not.

Those that are not allowed, must be encoded, for instance non-latin letters and spaces - replaced with their UTF-8 codes, prefixed by %, such as %20 (a space can be encoded by +, for historical reasons, but that's an exception).

The good news is that URL objects handle all that automatically. We just supply all parameters unencoded, and then convert the URL to string:

// using some cyrillic characters for this example

let url = new URL('https://ru.wikipedia.org/wiki/Тест');

url.searchParams.set('key', 'ъ');
alert(url); //https://ru.wikipedia.org/wiki/%D0%A2%D0%B5%D1%81%D1%82?key=%D1%8A

As you can see, both Тест in the url path and ъ in the parameter are encoded.

The URL became longer, because each cyrillic letter is represented with two bytes in UTF-8, so there are two %.. entities.

Encoding strings

In old times, before URL objects appeared, people used strings for URLs.

As of now, URL objects are often more convenient, but strings can still be used as well. In many cases using a string makes the code shorter.

If we use a string though, we need to encode/decode special characters manually.

There are built-in functions for that:

  • encodeURI - encodes URL as a whole.
  • decodeURI - decodes it back.
  • encodeURIComponent - encodes a URL component, such as a search parameter, or a hash, or a pathname.
  • decodeURIComponent - decodes it back.

A natural question is: "What's the difference between encodeURIComponent and encodeURI? When we should use either?"

That's easy to understand if we look at the URL, that's split into components in the picture above:

https://site.com:8080/path/page?p1=v1&p2=v2#hash

As we can see, characters such as :, ?, =, &, # are allowed in URL.

...On the other hand, if we look at a single URL component, such as a search parameter, these characters must be encoded, not to break the formatting.

  • encodeURI encodes only characters that are totally forbidden in URL.
  • encodeURIComponent encodes same characters, and, in addition to them, characters #, $, &, +, ,, /, :, ;, =, ? and @.

So, for a whole URL we can use encodeURI:

// using cyrillic characters in url path
let url = encodeURI('http://site.com/привет');

alert(url); // http://site.com/%D0%BF%D1%80%D0%B8%D0%B2%D0%B5%D1%82

...While for URL parameters we should use encodeURIComponent instead:

let music = encodeURIComponent('Rock&Roll');

let url = `https://google.com/search?q=${music}`;
alert(url); // https://google.com/search?q=Rock%26Roll

Compare it with encodeURI:

let music = encodeURI('Rock&Roll');

let url = `https://google.com/search?q=${music}`;
alert(url); // https://google.com/search?q=Rock&Roll

As we can see, encodeURI does not encode &, as this is a legit character in URL as a whole.

But we should encode & inside a search parameter, otherwise, we get q=Rock&Roll - that is actually q=Rock plus some obscure parameter Roll. Not as intended.

So we should use only encodeURIComponent for each search parameter, to correctly insert it in the URL string. The safest is to encode both name and value, unless we're absolutely sure that it has only allowed characters.

````smart header="Encoding difference compared to URL" Classes URL and URLSearchParams are based on the latest URI specification: RFC3986, while `encode*` functions are based on the obsolete version RFC2396.

There are few differences, e.g. IPv6 addresses are encoded differently:

// valid url with IPv6 address
let url = 'http://[2607:f8b0:4005:802::1007]/';

alert(encodeURI(url)); // http://%5B2607:f8b0:4005:802::1007%5D/
alert(new URL(url)); // http://[2607:f8b0:4005:802::1007]/

As we can see, encodeURI replaced square brackets [...], that's not correct, the reason is: IPv6 urls did not exist at the time of RFC2396 (August 1998).

Such cases are rare, encode* functions work well most of the time.