Change style header/nav with Intersection Observer (IO)
I've encountered the same situation and the solution I implemented is very precise because it doesn't rely on percentages but on real elements' bounding boxes:
class Header {
constructor() {
this.header = document.querySelector("header");
this.span = this.header.querySelector('span');
this.invertedSections = document.querySelectorAll(".invertedSection");
window.addEventListener('resize', () => this.resetObserver());
this.resetObserver();
}
resetObserver() {
if (this.observer) this.observer.disconnect();
const {
top,
height
} = this.span.getBoundingClientRect();
this.observer = new IntersectionObserver(entries => this.observerCallback(entries), {
root: document,
rootMargin: `-${top}px 0px -${window.innerHeight - top - height}px 0px`,
});
this.invertedSections.forEach((el) => this.observer.observe(el));
};
observerCallback(entries) {
let inverted = false;
entries.forEach((entry) => {
if (entry.isIntersecting) inverted = true;
});
if (inverted) this.header.classList.add('inverted');
else this.header.classList.remove('inverted');
};
}
new Header();
header {
position: fixed;
top: 0;
left: 0;
right: 0;
padding: 20px 0;
text-transform: uppercase;
text-align: center;
font-weight: 700;
}
header.inverted {
color: #fff;
}
section {
height: 500px;
}
section.invertedSection {
background-color: #000;
}
<body>
<header>
<span>header</span>
</header>
<main>
<section></section>
<section class="invertedSection"></section>
<section></section>
<section class="invertedSection"></section>
</main>
</body>
What it does is actually quite simple: we can't use IntersectionObserver to know when the header
and other elements are crossing (because the root
must be a parent of the observed elements), but we can calculate the position and size of the header
to add rootMargin
to the observer.
Sometimes, the header is taller than its content (because of padding and other stuff) so I calculate the bounding-box of the span
in the header (I want it to become white only when this element overlaps a black section).
Because the height of the window can change, I have to reset the IntersectionObserver on window resize.
The root
property is set to document
here because of iframe restrictions of the snippet (otherwise you can leave this field undefined).
With the rootMargin
, I specify in which area I want the observer to look for intersections.
Then I observe every black section. In the callback function, I define if at least one section is overlapping, and if this is true, I add an inverted
className to the header.
If we could use values like calc(100vh - 50px)
in the rootMargin
property, we may not need to use the resize
listener.
We could even improve this system by adding side rootMargin, for instance if I have black sections that are only half of the window width and may or may not intersect with the span in the header depending on its horizontal position.
Instead of listening to scroll event you should have a look at Intersection Observer (IO). This was designed to solve problems like yours. And it is much more performant than listening to scroll events and then calculating the position yourself.
First, here is a codepen which shows a solution for your problem. I am not the author of this codepen and I would maybe do some things a bit different but it definitely shows you the basic approach on how to solve your problem.
Things I would change: You can see in the example that if you scoll 99% to a new section, the heading changes even tough the new section is not fully visible.
Now with that out of the way, some explaining on how this works (note, I will not blindly copy-paste from codepen, I will also change const to let, but use whatever is more appropriate for your project.
First, you have to specify the options for IO:
let options = {
rootMargin: '-50px 0px -55%'
}
let observer = new IntersectionObserver(callback, options);
In the example the IO is executing the callback once an element is 50px away from getting into view. I can't recommend some better values from the top of my head but if I would have the time I would try to tweak these parameters to see if I could get better results.
In the codepen they define the callback function inline, I just wrote it that way to make it clearer on what's happening where.
Next step for IO is to define some elements to watch. In your case you should add some class to your divs, like <div class="section">
let entries = document.querySelectorAll('div.section');
entries.forEach(entry => {observer.observe(entry);})
Finally you have to define the callback function:
entries.forEach(entry => {
if (entry.isIntersecting) {
//specify what should happen if an element is coming into view, like defined in the options.
}
});
Edit: As I said this is just an example on how to get you started, it's NOT a finished solution for you to copy paste. In the example based on the ID of the section that get's visible the current element is getting highlighted. You have to change this part so that instead of setting the active class to, for example, third element you set the color and background-color depending on some attribute you set on the Element. I would recommend using data attributes for that.
Edit 2: Of course you can continue using just scroll events, the official Polyfill from W3C uses scroll events to emulate IO for older browsers.it's just that listening for scroll event and calculating position is not performant, especially if there are multiple elements. So if you care about user experience I really recommend using IO. Just wanted to add this answer to show what the modern solution for such a problem would be.
Edit 3: I took my time to create an example based on IO, this should get you started.
Basically I defined two thresholds: One for 20 and one for 90%. If the element is 90% in the viewport then it's save to assume it will cover the header. So I set the class for the header to the element that is 90% in view.
Second threshold is for 20%, here we have to check if the element comes from the top or from the bottom into view. If it's visible 20% from the top then it will overlap with the header.
Adjust these values and adapt the logic as you see.
const sections = document.querySelectorAll('div');
const config = {
rootMargin: '0px',
threshold: [.2, .9]
};
const observer = new IntersectionObserver(function (entries, self) {
entries.forEach(entry => {
if (entry.isIntersecting) {
var headerEl = document.querySelector('header');
if (entry.intersectionRatio > 0.9) {
//intersection ratio bigger than 90%
//-> set header according to target
headerEl.className=entry.target.dataset.header;
} else {
//-> check if element is coming from top or from bottom into view
if (entry.target.getBoundingClientRect().top < 0 ) {
headerEl.className=entry.target.dataset.header;
}
}
}
});
}, config);
sections.forEach(section => {
observer.observe(section);
});
* {
margin: 0;
padding: 0;
box-sizing: border-box;
}
.g-100vh {
height: 100vh
}
header {
min-height: 50px;
position: fixed;
background-color: green;
width: 100%;
}
header.white-menu {
color: white;
background-color: black;
}
header.black-menu {
color: black;
background-color: white;
}
<script src="https://cdnjs.cloudflare.com/ajax/libs/jquery/3.3.1/jquery.min.js"></script>
<header>
<p>Header Content </p>
</header>
<div class="grid-30-span g-100vh white-menu" style="background-color:darkblue;" data-header="white-menu">
<img
src="data:image/svg+xml,%3Csvg xmlns='http://www.w3.org/2000/svg' viewBox='0 0 1.414 1'%3E%3C/svg%3E"
data-src="/images/example_darkblue.jpg"
class="lazyload"
alt="<?php echo $title; ?>">
</div>
<div class="grid-30-span g-100vh black-menu" style="background-color:lightgrey;" data-header="black-menu">
<img
src="data:image/svg+xml,%3Csvg xmlns='http://www.w3.org/2000/svg' viewBox='0 0 1.414 1'%3E%3C/svg%3E"
data-src="/images/example_lightgrey.jpg"
class="lazyload"
alt="<?php echo $title; ?>">
</div>
I might not understand the question completely, but as for your example - you can solve it by using the mix-blend-mode css property without using javascript at all.
Example:
header {background: white; position: relative; height: 20vh;}
header h1 {
position: fixed;
color: white;
mix-blend-mode: difference;
}
div {height: 100vh; }
<header>
<h1>StudioX, Project Title, Category...</h1>
</header>
<div style="background-color:darkblue;"></div>
<div style="background-color:lightgrey;"></div>
@Quentin D
I searched the internet for something like this, and I found this code to be the best solution for my needs.
Therefore I decided to build on it and create a universal "Observer" class, that can be used in many cases where IntesectionObserver is required, including changing the header styles. I haven't tested it much, only in a few basic cases, and it worked for me. I haven't tested it on a page that has a horizontal scroll.
Having it this way makes it easy to use it, just save it as a .js file and include/import it in your code, something like a plugin. :) I hope someone will find it useful.
If someone finds better ideas (especially for "horizontal" sites), it would be nice to see them here.
Edit: I hadn't made the correct "unobserve", so I fixed it.
/* The Intersection Observer API provides a way to asynchronously observe changes in the intersection of a target element with an ancestor element or with a top-level document's viewport.
ROOT:
It is not necessary for the root to be the ancestor element of the target. The root is allways the document, and the so-called root element is used only to get its size and position, to create an area in the document, with options.rootMargin.
Leave it false to have the viewport as root.
TARGET:
IntersectionObserver triggers when the target is entering at the specified ratio(s), and when it exits at the same ratio(s).
For more on IntersectionObserverEntry object, see:
https://developer.mozilla.org/en-US/docs/Web/API/Intersection_Observer_API#targeting_an_element_to_be_observed
IntersectionObserverEntry.time // Timestamp when the change occurred
IntersectionObserverEntry.rootBounds // Unclipped area of root
IntersectionObserverEntry.intersectionRatio // Ratio of intersectionRect area to boundingClientRect area
IntersectionObserverEntry.target // the Element target
IntersectionObserverEntry.boundingClientRect // target.boundingClientRect()
IntersectionObserverEntry.intersectionRect // boundingClientRect, clipped by its containing block ancestors, and intersected with rootBounds
THRESHOLD:
Intersection ratio/threshold can be an array, and then it will trigger on each value, when in and when out.
If root element's size, for example, is only 10% of the target element's size, then intersection ratio/threshold can't be set to more than 10% (that is 0.1).
CALLBACKS:
There can be created two functions; when the target is entering and when it's exiting. These functions can do what's required for each event (visible/invisible).
Each function is passed three arguments, the root (html) element, IntersectionObserverEntry object, and intersectionObserver options used for that observer.
Set only root and targets to only have some info in the browser's console.
For more info on IntersectionObserver see: https://developer.mozilla.org/en-US/docs/Web/API/Intersection_Observer_API
Polyfill: <script src="https://polyfill.io/v3/polyfill.js?features=IntersectionObserver"></script>
or:
https://github.com/w3c/IntersectionObserver/tree/main/polyfill
Based on answer by Quentin D, answered Oct 27 '20 at 12:12
https://stackoverflow.com/questions/57834100/change-style-header-nav-with-intersection-observer-io
root - (any selector) - root element, intersection parent (only the first element is selected).
targets - (any selector) - observed elements that trigger function when visible/invisible.
inCb - (function name) - custom callback function to trigger when the target is intersecting.
outCb - (function name) - custom callback function to trigger when the target is not intersecting.
thres - (number 0-1) - threshold to trigger the observer (e.g. 0.1 will trigger when 10% is visible).
unobserve- (bolean) - if true, the target is unobserved after triggering the callback.
EXAMPLE:
(place in 'load' event listener, to have the correct dimensions)
var invertedHeader = new Observer({
root: '.header--main', // don't set to have the viewport as root
targets: '[data-bgd-dark]',
thres: [0, .16],
inCb: someCustomFunction,
});
*/
class Observer {
constructor({
root = false,
targets = false,
inCb = this.isIn,
outCb = this.isOut,
thres = 0,
unobserve = false,
} = {}) {
// this element's position creates with rootMargin the area in the document
// which is used as intersection observer's root area.
// the real root is allways the document.
this.area = document.querySelector(root); // intersection area
this.targets = document.querySelectorAll(targets); // intersection targets
this.inCallback = inCb; // callback when intersecting
this.outCallback = outCb; // callback when not intersecting
this.unobserve = unobserve; // unobserve after intersection
this.margins; // rootMargin for observer
this.windowW = document.documentElement.clientWidth;
this.windowH = document.documentElement.clientHeight;
// intersection is being checked like:
// if (entry.isIntersecting || entry.intersectionRatio >= this.ratio),
// and if ratio is 0, "entry.intersectionRatio >= this.ratio" will be true,
// even for non-intersecting elements, therefore:
this.ratio = thres;
if (Array.isArray(thres)) {
for (var i = 0; i < thres.length; i++) {
if (thres[i] == 0) {
this.ratio[i] = 0.0001;
}
}
} else {
if (thres == 0) {
this.ratio = 0.0001;
}
}
// if root selected use its position to create margins, else no margins (viewport as root)
if (this.area) {
this.iArea = this.area.getBoundingClientRect(); // intersection area
this.margins = `-${this.iArea.top}px -${(this.windowW - this.iArea.right)}px -${(this.windowH - this.iArea.bottom)}px -${this.iArea.left}px`;
} else {
this.margins = '0px';
}
// Keep this last (this.ratio has to be defined before).
// targets are required to create an observer.
if (this.targets) {
window.addEventListener('resize', () => this.resetObserver());
this.resetObserver();
}
}
resetObserver() {
if (this.observer) this.observer.disconnect();
const options = {
root: null, // null for the viewport
rootMargin: this.margins,
threshold: this.ratio,
}
this.observer = new IntersectionObserver(
entries => this.observerCallback(entries, options),
options,
);
this.targets.forEach((target) => this.observer.observe(target));
};
observerCallback(entries, options) {
entries.forEach(entry => {
// "entry.intersectionRatio >= this.ratio" for older browsers
if (entry.isIntersecting || entry.intersectionRatio >= this.ratio) {
// callback when visible
this.inCallback(this.area, entry, options);
// unobserve
if (this.unobserve) {
this.observer.unobserve(entry.target);
}
} else {
// callback when hidden
this.outCallback(this.area, entry, options);
// No unobserve, because all invisible targets will be unobserved automatically
}
});
};
isIn(rootElmnt, targetElmt, options) {
if (!rootElmnt) {
console.log(`IO Root: VIEWPORT`);
} else {
console.log(`IO Root: ${rootElmnt.tagName} class="${rootElmnt.classList}"`);
}
console.log(`IO Target: ${targetElmt.target.tagName} class="${targetElmt.target.classList}" IS IN (${targetElmt.intersectionRatio * 100}%)`);
console.log(`IO Threshold: ${options.threshold}`);
//console.log(targetElmt.rootBounds);
console.log(`============================================`);
}
isOut(rootElmnt, targetElmt, options) {
if (!rootElmnt) {
console.log(`IO Root: VIEWPORT`);
} else {
console.log(`IO Root: ${rootElmnt.tagName} class="${rootElmnt.classList}"`);
}
console.log(`IO Target: ${targetElmt.target.tagName} class="${targetElmt.target.classList}" IS OUT `);
console.log(`============================================`);
}
}