By default, a
<script src=...></script> tag is evil! The browser must halt parsing the HTML until the script is downloaded and executed (since the script might call
document.write(...) or define global variables that later scripts depend on). This means that any images and stylesheets that are after the script tag don't start downloading until after the script has finished downloading and executing. External scripts typically make the Web load much more slowly, which is why NoScript has become so popular.
defer to solve the problem. If you use
<script defer src=...></script>, you promise not to call
defer external script will start downloading immediately but won't execute until after the page is rendered. After the page has rendered, all
defer scripts are executed in the same order that they were declared. Not all browsers implement
HTML5 introduced the
async attribute which may execute any time--possibly before the page has finished parsing or even before other
async scripts that are still downloading. But it's harder to use multiple
async scripts because their execution order is not guaranteed. Like
defer, not all browsers implement
async scripts have executed, the
load events fire.
A brief history of
- 1997 IE 4 introduces
- 1998 HTML 4 spec mentions
defer, but unfortunately it doesn't say exactly when
defer scripts execute (All in order? Before
onload?). Thus, no other browsers implement
defer because no one wants to reverse-engineer IE's behavior or break scripts that might depend on IE's peculiarities. (See the Mozilla feature request, for example).
- 2006 HTML5 draft finally describes the details needed to implement
defer scripts should all be executed in order after the rest of the page is parsed, and before
onload. It also introduces
async to specify scripts that can execute whenever they are downloaded without having to wait for each other. Unfortunately, HTML5 contradicts IE by not allowing inline
defer scripts. This breaks the invariant that all
defer scripts are executed in order (if some
defer scripts have
src and some have inline content).
- 2009 Gecko 1.9.1 (Firefox 3.5) supports
- 2010-01 Gecko 1.9.2 (Firefox 3.6) supports
async are checked into Webkit. You should see it in Chrome and Safari very soon (it's already in the Chrome dev channel but it's a bit buggy).
- We're still waiting for Opera to implement
async and for IE to implement
So what should a web developer use?
There's no single rule to follow at this time. You have to choose the solution that best balances simplicity, page render latency, and script execution latency for the set of browsers that access your website.
- The simplest way to have the page render before the scripts execute, as others have pointed out, is to put your scripts at the bottom of the page. But if the scripts are essential, or the webpage contains lots of HTML, then you should put your scripts higher up on the page.
- If your script is standalone and your customers use IE or new versions of Firefox, use
<script async defer src=...></script>: This allows rendering to continue in parallel to script downloading for IE and the newest HTML5 browsers but causes pre-HTML5 browsers (including all versions of Opera) to block.
- If one external script depends on another, mark them both
defer (but not
async) and they will be executed in the order that they were declared (except IE<=9 in certain conditions can execute them out of order). Again, this allows rendering to continue in parallel to script downloading in IE and HTML5-aware Gecko/Webkit, but older browsers and Opera will suffer. It's a good idea to use
defer even if the scripts are at the bottom of the page so that they download in parallel with each other.
- Never use
defer for inline scripts because the HTML5 draft has taken away the execution order guarantee.
- If your audience includes many Opera or old Firefox/Safari users, the following snippet will execute the script after parsing the document on most pre-HTML5 browsers (IE, Webkit, need to test old Firefox), while the newest HTML5-aware browsers start downloading immediately but won't block to execute the script because of the
async attribute. In other words, most older browsers treat it like a script at the bottom of the page, and newest browsers recognize the
async. But Opera users get the worst of both worlds, because Opera begins execution immediately and doesn't understand
async. This is the pattern recommended by Google Analytics for the urchin on many webpages.
var script = document.createElement('script');
script.src = '...';
script.async = true;
var s = document.getElementsByTagName('script');
- If another script depends on the first script to load, then you can use the same pattern as above, but listen to the onload event of the first script element before executing the second script. See the LABjs example for how to wait for another script to load.
- If you have multiple scripts with complicated dependencies, use LAB.js or the YUI Loader to make them download in parallel and execute in some valid order.
- If you're using a popular library such as jQuery, consider using Google's copy rather than your own to increase the likelihood that the browser has already cached it.
Update: If you have scripts split into modules and want to improve performance, I recommend the "Coupling Asynchronous Scripts" chapter of Even Faster Web Sites by Steve Souder. It contains tips/tricks for not only controlling execution order but also to delay parsing of scripts to improve performance.