Let’s Make One of Those Fancy Scrolling Animations Used on Apple Product Pages
Apple is well-known for the sleek animations on their product pages. For example, as you scroll down the page products may slide into view, MacBooks fold open and iPhones spin, all while showing off the hardware, demonstrating the software and telling interactive stories of how the products are used.
Just check out this video of the mobile web experience for the iPad Pro:
A lot of the effects that you see there aren’t created in just HTML and CSS. What then, you ask? Well, it can be a little hard to figure out. Even using the browser’s DevTools won’t always reveal the answer, as it often can’t see past a element.
Let’s take an in-depth look at one of these effects to see how it’s made so you can recreate some of these magical effects in our own projects. Specifically, let’s replicate the AirPods Pro product page and the shifting light effect in the hero image.
The basic concept
The idea is to create an animation just like a sequence of images in rapid succession. You know, like a flip book! No complex WebGL scenes or advanced JavaScript libraries are needed.
By synchronizing each frame to the user’s scroll position, we can play the animation as the user scrolls down (or back up) the page.
Start with the markup and styles
The HTML and CSS for this effect is very easy as the magic happens inside the element which we control with JavaScript by giving it an ID.
In CSS, we’ll give our document a height of 100vh and make our 5? taller than that to give ourselves the necessary scroll length to make this work. We’ll also match the background color of the document with the background color of our images.
The last thing we’ll do is position the , center it, and limit the
max-width
and height
so it does not exceed the dimensions of the viewport.
html {
height: 100vh;
}
body {
background: #000;
height: 500vh;
}
canvas {
position: fixed;
left: 50%;
top: 50%;
max-height: 100vh;
max-width: 100vw;
transform: translate(-50%, -50%);
}
Right now, we are able to scroll down the page (even though the content does not exceed the viewport height) and our stays at the top of the viewport. That’s all the HTML and CSS we need.
Let’s move on to loading the images.
Fetching the correct images
Since we’ll be working with an image sequence (again, like a flip book), we’ll assume the file names are numbered sequentially in ascending order (i.e. 0001.jpg, 0002.jpg, 0003.jpg, etc.) in the same directory.
We’ll write a function that returns the file path with the number of the image file we want, based off of the user’s scroll position.
const currentFrame = index => (
`https://www.apple.com/105/media/us/airpods-pro/2019/1299e2f5_9206_4470_b28e_08307a42f19b/anim/sequence/large/01-hero-lightpass/${index.toString().padStart(4, '0')}.jpg`
)
Since the image number is an integer, we’ll need to turn it in to a string and use padStart(4, '0')
to prepend zeros in front of our index until we reach four digits to match our file names. So, for example, passing 1 into this function will return 0001.
That gives us a way to handle image paths. Here’s the first image in the sequence drawn on the element:
As you can see, the first image is on the page. At this point, it’s just a static file. What we want is to update it based on the user’s scroll position. And we don’t merely want to load one image file and then swap it out by loading another image file. We want to draw the images on the and update the drawing with the next image in the sequence (but we’ll get to that in just a bit).
We already made the function to generate the image filepath based on the number we pass into it so what we need to do now is track the user’s scroll position and determine the corresponding image frame for that scroll position.
Connecting images to the user’s scroll progress
To know which number we need to pass (and thus which image to load) in the sequence, we need to calculate the user’s scroll progress. We’ll make an event listener to track that and handle some math to calculate which image to load.
We need to know:
- Where scrolling starts and ends
- The user’s scroll progress (i.e. a percentage of how far the user is down the page)
- The image that corresponds to the user’s scroll progress
We’ll use scrollTop
to get the vertical scroll position of the element, which in our case happens to be the top of the document. That will serve as the starting point value. We’ll get the end (or maximum) value by subtracting the window height from the document scroll height. From there, we’ll divide the scrollTop
value by the maximum value the user can scroll down, which gives us the user’s scroll progress.
Then we need to turn that scroll progress into an index number that corresponds with the image numbering sequence for us to return the correct image for that position. We can do this by multiplying the progress number by the number of frames (images) we have. We’ll use Math.floor()
to round that number down and wrap it in Math.min()
with our maximum frame count so it never exceeds the total number of frames.
window.addEventListener('scroll', () => {
const scrollTop = html.scrollTop;
const maxScrollTop = html.scrollHeight - window.innerHeight;
const scrollFraction = scrollTop / maxScrollTop;
const frameIndex = Math.min(
frameCount - 1,
Math.floor(scrollFraction * frameCount)
);
});
Updating with the correct image
We now know which image we need to draw as the user’s scroll progress changes. This is where the magic of comes into play. has many cool features for building everything from games and animations to design mockup generators and everything in between!
One of those features is a method called requestAnimationFrame
that works with the browser to update in a way we couldn’t do if we were working with straight image files instead. This is why I went with a
approach instead of, say, an
element or a
requestAnimationFrame
will match the browser refresh rate and enable hardware acceleration by using WebGL to render it using the device’s video card or integrated graphics. In other words, we’ll get super smooth transitions between frames — no image flashes!
Let’s call this function in our scroll event listener to swap images as the user scrolls up or down the page. requestAnimationFrame
takes a callback argument, so we’ll pass a function that will update the image source and draw the new image on the :
requestAnimationFrame(() => updateImage(frameIndex + 1))
We’re bumping up the frameIndex
by 1 because, while the image sequence starts at 0001.jpg, our scroll progress calculation starts actually starts at 0. This ensures that the two values are always aligned.
The callback function we pass to update the image looks like this:
const updateImage = index => {
img.src = currentFrame(index);
context.drawImage(img, 0, 0);
}
We pass the frameIndex
into the function. That sets the image source with the next image in the sequence, which is drawn on our element.
Even better with image preloading
We’re technically done at this point. But, come on, we can do better! For example, scrolling quickly results in a little lag between image frames. That’s because every new image sends off a new network request, requiring a new download.
We should try preloading the images new network requests. That way, each frame is already downloaded, making the transitions that much faster, and the animation that much smoother!
All we’ve gotta do is loop through the entire sequence of images and load ‘em up:
const frameCount = 148;
const preloadImages = () => {
for (let i = 1; i < frameCount; i++) {
const img = new Image();
img.src = currentFrame(i);
}
};
preloadImages();
Demo!
A quick note on performance
While this effect is pretty slick, it’s also a lot of images. 148 to be exact.
No matter much we optimize the images, or how speedy the CDN is that serves them, loading hundreds of images will always result in a bloated page. Let’s say we have multiple instances of this on the same page. We might get performance stats like this:
That might be fine for a high-speed internet connection without tight data caps, but we can’t say the same for users without such luxuries. It’s a tricky balance to strike, but we have to be mindful of everyone’s experience — and how our decisions affect them.
A few things we can do to help strike that balance include:
- Loading a single fallback image instead of the entire image sequence
- Creating sequences that use smaller image files for certain devices
- Allowing the user to enable the sequence, perhaps with a button that starts and stops the sequence
Apple employs the first option. If you load the AirPods Pro page on a mobile device connected to a slow 3G connection and, hey, the performance stats start to look a whole lot better:
Yeah, it’s still a heavy page. But it’s a lot lighter than what we’d get without any performance considerations at all. That’s how Apple is able to get get so many complex sequences onto a single page.
Further reading
If you are interested in how these image sequences are generated, a good place to start is the Lottie library by AirBnB. The docs take you through the basics of generating animations with After Effects while providing an easy way to include them in projects.
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