Let’s start with an example.
This handler is assigned to <div>
, but also runs if you click any nested tag like <em>
or <code>
:
<div onclick="alert('The handler!')">
<em>If you click on <code>EM</code>, the handler on <code>DIV</code> runs.</em>
</div>
Isn’t it a bit strange? Why does the handler on <div>
run if the actual click was on <em>
?
Bubbling
The bubbling principle is simple.
When an event happens on an element, it first runs the handlers on it, then on its parent, then all the way up on other ancestors.
Let’s say we have 3 nested elements FORM > DIV > P
with a handler on each of them:
<style>
body * {
margin: 10px;
border: 1px solid blue;
}
</style>
<form onclick="alert('form')">FORM
<div onclick="alert('div')">DIV
<p onclick="alert('p')">P</p>
</div>
</form>
A click on the inner <p>
first runs onclick
:
- On that
<p>
. - Then on the outer
<div>
. - Then on the outer
<form>
. - And so on upwards till the
document
object.
So if we click on <p>
, then we’ll see 3 alerts: p
→ div
→ form
.
The process is called “bubbling”, because events “bubble” from the inner element up through parents like a bubble in the water.
The key word in this phrase is “almost”.
For instance, a focus
event does not bubble. There are other examples too, we’ll meet them. But still it’s an exception, rather than a rule, most events do bubble.
event.target
A handler on a parent element can always get the details about where it actually happened.
The most deeply nested element that caused the event is called a target element, accessible as event.target
.
Note the differences from this
(=event.currentTarget
):
event.target
– is the “target” element that initiated the event, it doesn’t change through the bubbling process.this
– is the “current” element, the one that has a currently running handler on it.
For instance, if we have a single handler form.onclick
, then it can “catch” all clicks inside the form. No matter where the click happened, it bubbles up to <form>
and runs the handler.
In form.onclick
handler:
this
(=event.currentTarget
) is the<form>
element, because the handler runs on it.event.target
is the actual element inside the form that was clicked.
Check it out:
form.onclick = function(event) {
event.target.style.backgroundColor = 'yellow';
// chrome needs some time to paint yellow
setTimeout(() => {
alert("target = " + event.target.tagName + ", this=" + this.tagName);
event.target.style.backgroundColor = ''
}, 0);
};
form {
background-color: green;
position: relative;
width: 150px;
height: 150px;
text-align: center;
cursor: pointer;
}
div {
background-color: blue;
position: absolute;
top: 25px;
left: 25px;
width: 100px;
height: 100px;
}
p {
background-color: red;
position: absolute;
top: 25px;
left: 25px;
width: 50px;
height: 50px;
line-height: 50px;
margin: 0;
}
body {
line-height: 25px;
font-size: 16px;
}
<!DOCTYPE HTML>
<html>
<head>
<meta charset="utf-8">
<link rel="stylesheet" href="example.css">
</head>
<body>
A click shows both <code>event.target</code> and <code>this</code> to compare:
<form id="form">FORM
<div>DIV
<p>P</p>
</div>
</form>
<script src="script.js"></script>
</body>
</html>
It’s possible that event.target
could equal this
– it happens when the click is made directly on the <form>
element.
Stopping bubbling
A bubbling event goes from the target element straight up. Normally it goes upwards till <html>
, and then to document
object, and some events even reach window
, calling all handlers on the path.
But any handler may decide that the event has been fully processed and stop the bubbling.
The method for it is event.stopPropagation()
.
For instance, here body.onclick
doesn’t work if you click on <button>
:
<body onclick="alert(`the bubbling doesn't reach here`)">
<button onclick="event.stopPropagation()">Click me</button>
</body>
If an element has multiple event handlers on a single event, then even if one of them stops the bubbling, the other ones still execute.
In other words, event.stopPropagation()
stops the move upwards, but on the current element all other handlers will run.
To stop the bubbling and prevent handlers on the current element from running, there’s a method event.stopImmediatePropagation()
. After it no other handlers execute.
Bubbling is convenient. Don’t stop it without a real need: obvious and architecturally well thought out.
Sometimes event.stopPropagation()
creates hidden pitfalls that later may become problems.
For instance:
- We create a nested menu. Each submenu handles clicks on its elements and calls
stopPropagation
so that the outer menu won’t trigger. - Later we decide to catch clicks on the whole window, to track users’ behavior (where people click). Some analytic systems do that. Usually the code uses
document.addEventListener('click'…)
to catch all clicks. - Our analytic won’t work over the area where clicks are stopped by
stopPropagation
. Sadly, we’ve got a “dead zone”.
There’s usually no real need to prevent the bubbling. A task that seemingly requires that may be solved by other means. One of them is to use custom events, we’ll cover them later. Also we can write our data into the event
object in one handler and read it in another one, so we can pass to handlers on parents information about the processing below.
Capturing
There’s another phase of event processing called “capturing”. It is rarely used in real code, but sometimes can be useful.
The standard DOM Events describes 3 phases of event propagation:
- Capturing phase – the event goes down to the element.
- Target phase – the event reached the target element.
- Bubbling phase – the event bubbles up from the element.
Here’s the picture, taken from the specification, of the capturing (1)
, target (2)
and bubbling (3)
phases for a click event on a <td>
inside a table:
That is: for a click on <td>
the event first goes through the ancestors chain down to the element (capturing phase), then it reaches the target and triggers there (target phase), and then it goes up (bubbling phase), calling handlers on its way.
Until now, we only talked about bubbling, because the capturing phase is rarely used.
In fact, the capturing phase was invisible for us, because handlers added using on<event>
-property or using HTML attributes or using two-argument addEventListener(event, handler)
don’t know anything about capturing, they only run on the 2nd and 3rd phases.
To catch an event on the capturing phase, we need to set the handler capture
option to true
:
elem.addEventListener(..., {capture: true})
// or, just "true" is an alias to {capture: true}
elem.addEventListener(..., true)
There are two possible values of the capture
option:
- If it’s
false
(default), then the handler is set on the bubbling phase. - If it’s
true
, then the handler is set on the capturing phase.
Note that while formally there are 3 phases, the 2nd phase (“target phase”: the event reached the element) is not handled separately: handlers on both capturing and bubbling phases trigger at that phase.
Let’s see both capturing and bubbling in action:
<style>
body * {
margin: 10px;
border: 1px solid blue;
}
</style>
<form>FORM
<div>DIV
<p>P</p>
</div>
</form>
<script>
for(let elem of document.querySelectorAll('*')) {
elem.addEventListener("click", e => alert(`Capturing: ${elem.tagName}`), true);
elem.addEventListener("click", e => alert(`Bubbling: ${elem.tagName}`));
}
</script>
The code sets click handlers on every element in the document to see which ones are working.
If you click on <p>
, then the sequence is:
HTML
→BODY
→FORM
→DIV -> P
(capturing phase, the first listener):P
→DIV
→FORM
→BODY
→HTML
(bubbling phase, the second listener).
Please note, the P
shows up twice, because we’ve set two listeners: capturing and bubbling. The target triggers at the end of the first and at the beginning of the second phase.
There’s a property event.eventPhase
that tells us the number of the phase on which the event was caught. But it’s rarely used, because we usually know it in the handler.
removeEventListener
needs the same phaseIf we addEventListener(..., true)
, then we should mention the same phase in removeEventListener(..., true)
to correctly remove the handler.
If we have multiple event handlers on the same phase, assigned to the same element with addEventListener
, they run in the same order as they are created:
elem.addEventListener("click", e => alert(1)); // guaranteed to trigger first
elem.addEventListener("click", e => alert(2));
event.stopPropagation()
during the capturing also prevents the bubblingThe event.stopPropagation()
method and its sibling event.stopImmediatePropagation()
can also be called on the capturing phase. Then not only the futher capturing is stopped, but the bubbling as well.
In other words, normally the event goes first down (“capturing”) and then up (“bubbling”). But if event.stopPropagation()
is called during the capturing phase, then the event travel stops, no bubbling will occur.
Summary
When an event happens – the most nested element where it happens gets labeled as the “target element” (event.target
).
- Then the event moves down from the document root to
event.target
, calling handlers assigned withaddEventListener(..., true)
on the way (true
is a shorthand for{capture: true}
). - Then handlers are called on the target element itself.
- Then the event bubbles up from
event.target
to the root, calling handlers assigned usingon<event>
, HTML attributes andaddEventListener
without the 3rd argument or with the 3rd argumentfalse/{capture:false}
.
Each handler can access event
object properties:
event.target
– the deepest element that originated the event.event.currentTarget
(=this
) – the current element that handles the event (the one that has the handler on it)event.eventPhase
– the current phase (capturing=1, target=2, bubbling=3).
Any event handler can stop the event by calling event.stopPropagation()
, but that’s not recommended, because we can’t really be sure we won’t need it above, maybe for completely different things.
The capturing phase is used very rarely, usually we handle events on bubbling. And there’s a logical explanation for that.
In real world, when an accident happens, local authorities react first. They know best the area where it happened. Then higher-level authorities if needed.
The same for event handlers. The code that set the handler on a particular element knows maximum details about the element and what it does. A handler on a particular <td>
may be suited for that exactly <td>
, it knows everything about it, so it should get the chance first. Then its immediate parent also knows about the context, but a little bit less, and so on till the very top element that handles general concepts and runs the last one.
Bubbling and capturing lay the foundation for “event delegation” – an extremely powerful event handling pattern that we study in the next chapter.
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