Cross-Document View Transitions: The Gotchas Nobody Mentions

I wasted an entire Saturday on this.

Not a lazy Saturday either, but one of those rare, carved-out, “I’m finally going to build that thing” Saturdays. I’d seen Jake Archibald’s demos. I’d watched the Chrome Dev Summit talk. I knew cross-document view transitions were real, that you could get those slick native-feeling page transitions on plain old multi-page sites without a single framework. No React. No Astro. No client-side router pretending your multi-page application (MPA) is single-page application (SPA). Just HTML pages linking to other HTML pages, with the browser handling the animation between them. Hell yes.

So I started building. And nothing worked.

The first tutorial I found had me dropping <meta name="view-transition" content="same-origin"> into my <head>. Seemed simple enough. I added it to both pages, clicked my link, and… nothing. No transition. No error. Just a normal, instant page load like it was 2004. I opened DevTools, double-checked my syntax, restarted the server, tried Chrome Canary, cleared the cache. Nothing. I did what any self-respecting developer does at that point – I copied the code character by character from the blog post and pasted it in. Still nothing.

I spent two hours convinced I was an idiot.

Turns out that <meta> tag syntax? Deprecated. Gone. Chrome shipped it, then replaced it with a CSS-based opt-in, and half the internet’s tutorials still show the old way. Those older blog posts still rank well. They look authoritative. And they’re just wrong now. Not wrong because the authors were bad – wrong because the spec moved under everyone’s feet and nobody went back to update their posts.

The other half of the tutorials I found were about same-document view transitions. SPA stuff. document.startViewTransition() called in JavaScript when you swap DOM content yourself, which is cool and useful but a completely different feature when you actually sit down to implement it. The API surface is different. The mental model is different. The gotchas are very different. And yet, Google “view transitions tutorial” and good luck figuring out which flavor you’re reading about until you’re three paragraphs deep.

So if you’re here, I’m guessing you’ve been through some version of this. You tried the meta tag. It didn’t work. You tried the JavaScript API on a real multi-page site and realized it only fires within a single document. You maybe got something half-working in a demo but it fell apart the second you added real content — images stretching weird, transitions hanging for seconds with no explanation, or your CSS file turning into 200 lines of view-transition-name declarations because you have a grid of 40 product cards. You blamed yourself. It wasn’t your fault. The documentation ecosystem around this feature is a mess right now, and the spec has been a moving target.

This is Part 1 of a two-part series, and it’s the article I wish existed on that Saturday. We’re going to cover the actual current way to opt in with @view-transition in CSS (not the meta tag, not JavaScript), then dig into the 4-second timeout that will silently kill your transitions on slow pages and how to debug it, then fix the aspect ratio warping that makes every image-heavy transition look like a fun house mirror, and finally get a proper handle on the pagereveal and pageswap events that give you programmatic control over the whole lifecycle.

In Part 2, we’ll tackle the scaling problem – how to handle view-transition-name across dozens or hundreds of elements without your stylesheet becoming a disaster, the difference between view-transition-name and view-transition-class, just-in-time naming patterns, and doing prefers-reduced-motion the right way.

Cross-Document View Transitions Series

1. The Gotchas Nobody Mentions (You are here!)
2. Scaling View Transitions Across Hundreds of Elements (Next Monday!)

Grab coffee. Maybe a refill. This one’s dense and I’m not going to waste your time, but there’s a lot of ground here and none of it is obvious.

The Old Way is Dead

<!-- THIS IS DEPRECATED - stop copying this from old tutorials -->
<meta name="view-transition" content="same-origin">

/* THIS is the current opt-in - goes in your CSS */
@view-transition {
  navigation: auto;
}

Here’s the minimal setup. Two HTML files, one CSS rule on each. Note that, as of 2026, cross-document view transitions are supported in Chromium-based browsers and Safari 18.2+. Firefox support is in progress as I’m writing this.

That’s it. Two HTML files. One CSS rule on each. Click a link between them in a supporting browser (like modern Chromium or Safari 18.2+) and you get a smooth cross-fade. No JavaScript. No meta tags. No build step. The browser snapshots the old page, snapshots the new page, and animates between them automatically.

Now, why did the spec move from a meta tag to a CSS at-rule? It wasn’t arbitrary.

The meta tag was a blunt instrument. It was on or off for the entire page. You couldn’t say “enable transitions on desktop but not on mobile where the animations feel janky on low-end hardware.” You couldn’t conditionally opt in based on user preferences. It was just… there, or not.

The CSS approach opens all of that up:

/* Only enable transitions if the user hasn't asked for reduced motion */
@media (prefers-reduced-motion: no-preference) {
  @view-transition {
    navigation: auto;
  }
}

/* Only enable on viewports wide enough for the animation to feel good */
@media (min-width: 768px) {
  @view-transition {
    navigation: auto;
  }
}

That’s a real upgrade. You get the same conditional power you already have with every other CSS feature. Media queries, @supports, whatever scoping logic you want — it all just works because the opt-in lives where your styles live.

There’s also a subtlety that matters: the CSS rule can be different on the old page versus the new page. Both pages need to opt in for the transition to fire. If Page A has @view-transition { navigation: auto; } but Page B doesn’t, you get no transition. This is actually useful – it means your 404 page or your login redirect can skip transitions without any JavaScript coordination.

One more thing worth noting here: navigation: auto only kicks in for user-initiated, same-origin navigations. If the user clicks a regular link or hits the browser’s Back button, you get a transition. But window.location.href = "/somewhere" set programmatically, or a cross-origin link, or a form submission with a POST? No transition. The browser is intentionally conservative about when it fires, and honestly that’s the right call. You don’t want a fancy cross-fade on a POST request that’s creating a payment.

Look, if you’ve been following an outdated tutorial and your transitions just silently don’t work, this is almost certainly why. The meta tag shipped in Chrome 111, got a few months of real-world use, and then the Chrome team deprecated it in favor of the CSS at-rule starting around Chrome 126. No console warning. No error. The old syntax just quietly does nothing now. Honestly, a deprecation warning in DevTools would’ve saved me (and probably you) a lot of grief, but here we are.

Swap the meta tag for the CSS rule. That’s step one. Everything else in this article builds on it.

Your Transition Will Randomly Die, and Here’s Why

// Drop this in your pages to see what's actually happening
window.addEventListener("pagereveal", (event) => {
  if (!event.viewTransition) {
    console.log(
      "No view transition - page didn't opt in or browser skipped it",
    );
    return;
  } // This is the one that'll save your sanity

  event.viewTransition.finished
    .then(() => console.log("Transition completed ✅"))
    .catch((err) => {
      // You'll see "TimeoutError" here and nowhere else
      console.error("Transition killed:", err.name, err.message);
    });
});

Here’s the thing nobody puts in their blog post: cross-document view transitions have a hard 4-second timeout. If the new page doesn’t reach a state the browser considers “renderable” within 4 seconds of the navigation starting, the transition just… dies. No animation. No cross-fade. The new page snaps in like view transitions don’t exist. And unless you’ve got that pagereveal listener wired up and your console open, you won’t get any indication that anything went wrong.

Four seconds sounds generous — until it isn’t.

Think about what happens on a real site. Your page loads. The HTML arrives, fine, that’s fast. But maybe you’ve got a big hero image that’s render-blocking. Maybe there’s a slow API call that your server waits on before sending the response – a product page hitting an inventory service, a dashboard waiting on analytics data, anything with server-side rendering that actually does work before responding. Maybe you’re on a decent connection but the page has three web fonts loading from Google Fonts with font-display: block. Any of these can push you past that 4-second window, and the timeout doesn’t care why you’re slow. It just cuts the transition.

The really maddening part? It works perfectly on localhost. Your dev server responds in 80ms. The transition is butter. You deploy to production, your server’s cold-starting a lambda or your CDN cache missed, and suddenly users get zero transitions on the first click. You can’t reproduce it locally. You start questioning everything.

// You can also catch this on the OLD page using `pageswap`
// Useful for cleanup or logging which navigations fail
window.addEventListener("pageswap", (event) => {
  if (event.viewTransition) {
    event.viewTransition.finished.catch((err) => {
      // Log it, send it to your analytics, whatever
      console.warn("Outgoing transition aborted:", err.name);
    });
  }
});

So, what do you actually do about it?

Option one: make your page faster. I know, groundbreaking advice. But seriously – if your cross-document transition is dying, that’s a signal your page load is genuinely slow. The timeout is acting as a performance canary. Look at your Performance tab in DevTools, run a Lighthouse audit (which may not be perfect), figure out what’s blocking first render. This isn’t view-transition-specific advice, but the timeout forces you to care about it.

Option two is more interesting, and it’s the thing I wish I’d known about immediately.

<!-- Note: rel="expect" is newer and browser support is rolling out -->
<link rel="expect" href="#hero" blocking="render">

This:

<link rel="expect" href="#hero" blocking="render">

…tells the browser: “Don’t consider this page renderable until an element matching #hero is in the DOM.” That sounds like it would make things slower, and in a way it does – it delays first paint. But for view transitions, that’s exactly what you want: you’re telling the browser to hold the snapshot until the important content is actually there, rather than snapping a screenshot of a half-loaded page or, worse, timing out because some image in the footer is still downloading and blocking something.

It’s a trade-off. You’re choosing a slightly delayed, but smooth, transition over a fast, but-broken, one.

Honestly, the 4-second limit is probably the right call from the browser’s perspective. You don’t want a user clicking a link and staring at a frozen page for 10 seconds while the browser waits to do a fancy animation. At some point, just showing the damn page is better than a pretty transition. But I wish Chrome would surface the timeout more visibly – a DevTools warning, a performance marker, something. Right now it fails silently and that’s the whole problem.

One more thing worth knowing: the timeout clock starts when navigation begins, not when the new page’s HTML starts arriving. Network latency counts. The Time to First Byte (TTFB) Core Web Vital counts. If your server takes 2 seconds to respond and your page takes 2.5 seconds to render after that, you’re over the limit even though neither half feels slow on its own.

A debugging tip that’s saved me more than once: Chrome’s DevTools has an Animations panel (it’s under “More tools” if you don’t see it) that can actually capture view transitions in action. You can slow them down to 10% speed, replay them, and inspect the pseudo-element tree mid-animation. It’s not obvious that it works for view transitions, but it does. Between that and the pagereveal listener above, you can diagnose most timeout issues pretty quickly.

Put that pagereveal listener in early. Watch your console during testing. You’ll thank yourself later.

Why Your Images Look Like Taffy

This one’s easier to show with a same-document demo first (since you can actually run it in a single file), but the problem and the fix are identical for cross-document transitions.

Run that. Click the image. Watch the dog turn into silly putty.

The image itself has object-fit: cover on both sides. The thumbnail looks fine, the hero looks fine. But during the transition? The browser doesn’t transition your <img> element. It takes a screenshot of the old state, takes a screenshot of the new state, and morphs between them. Those screenshots are flat raster images. Your carefully applied object-fit? Gone. The browser is just scaling a bitmap from one box size to another, and when a 150×150 square gets stretched into a 600×300 rectangle, you get taffy.

Here’s the fix:

/* THE FIX - target the transition pseudo-elements directly */
::view-transition-old(hero-img),
::view-transition-new(hero-img) {
  /* Treat the snapshot like an image in a container - crop, don't stretch */
  object-fit: cover;
  overflow: hidden;
}

That’s the whole thing. Two properties on two pseudo-elements.

What’s actually happening: the browser generates a tree of pseudo-elements for every named transition. For an element with view-transition-name: hero-img, you get this structure during the animation:

::view-transition
└── ::view-transition-group(hero-img)
    ├── ::view-transition-old(hero-img)
    └── ::view-transition-new(hero-img)

The ::view-transition-group smoothly animates its width and height from the old dimensions to the new ones. That’s the morphing rectangle you see. Inside it, the old and new pseudo-elements hold the actual bitmap snapshots, and by default they’re set to object-fit: fill – meaning “stretch to fill whatever box you’re in, aspect ratio be damned.”

Switching to object-fit: cover tells those snapshots to maintain their aspect ratio and crop the overflow instead. Same mental model as a background image with background-size: cover. The transition still animates the box from square to rectangle (or whatever your shapes are), but the image inside crops gracefully instead of warping.

You could also use object-fit: contain here if you’d rather see the full image with letterboxing instead of cropping. It depends on what looks right for your content. But cover is what you’ll want 90% of the time, especially for product images and hero shots.

For cross-document transitions, the CSS is identical – you just put it in both pages’ stylesheets:

/* This works cross-document. Same selectors, same fix. */
/* Put it in your shared CSS file that both pages load. */
@view-transition {
  navigation: auto;
}

::view-transition-old(hero-img),
::view-transition-new(hero-img) {
  object-fit: cover;
}

/* You can also control the animation timing on the group */
::view-transition-group(hero-img) {
  animation-duration: 0.4s;
  animation-timing-function: cubic-bezier(0.4, 0, 0.2, 1);
}

Honestly, I think object-fit: cover should be the default on these pseudo-elements instead of fill. I get why the spec chose fill – it’s predictable, it matches what object-fit defaults to on replaced elements everywhere else in CSS – but in practice, how often do you actually want a stretched bitmap during a transition? Almost never. You’ll be adding this override on basically every image transition you build.

One more variant that’s useful when the aspect ratios are wildly different – say a tall portrait thumbnail transitioning into a cinematic widescreen hero:

/* Fine-tune where the crop happens on each side of the transition */
::view-transition-group(hero-img) {
  overflow: hidden;
  border-radius: 8px; /* keep it pretty mid-flight */
}

::view-transition-old(hero-img) {
  object-fit: cover;
  object-position: center center;
}

::view-transition-new(hero-img) {
  object-fit: cover;
  object-position: center top; /* keep the top of the hero visible */
}

You can set different object-position values on old versus new, which lets you control where the crop happens on each side of the transition independently. The old thumbnail might look best cropped from center. The new hero might need to anchor to the top. Mix and match.

This took me an embarrassingly long time to figure out. The fix is two lines of CSS, but if you don’t know the pseudo-element tree exists, you don’t even know what to target. Now you do.

The Two Events That Tie it All Together

You’ve already seen pagereveal and pageswap show up in the code above, but let’s take a step back and talk about what they actually are. Understanding these two events is going to be important, because in Part 2 we’ll lean on them heavily for the just-in-time naming pattern that makes view transitions actually scale.

Cross-document view transitions happen across two pages that have no JavaScript connection to each other. Page A doesn’t know about Page B’s DOM. Since the old and new pages have no way to communicate directly, these events are your only way to coordinate the transition on both sides. Page B didn’t exist when Page A was running. So how do you coordinate anything? How do you decide which elements to name, or customize the transition based on where the user is heading?

That’s what these two events are for. They’re your hooks into the transition lifecycle, one on each side of the navigation.

pageswap fires on the outgoing page, right before it gets replaced. This is your last chance to touch the old page’s DOM before the browser snapshots it. The event gives you two key properties:

• event.viewTransition: the ViewTransition object for this navigation, or null if no transition is happening.
• event.activation: a NavigationActivation object that tells you where the user is going.

That activation property is the really useful one. event.activation.entry.url gives you the destination URL, and event.activation.navigationType tells you whether it’s a push, replace, traverse (back/forward), or reload. This means you can customize the outgoing side of the transition based on the destination. On a product listing page, for example, you can check which product the user clicked, find the matching card, and assign a view-transition-name to just that element right before the snapshot happens.

pagereveal fires on the incoming page, right after the page becomes active but while the transition is still running. This is your chance to set up the new side. The event gives you:

• event.viewTransition: same deal, the ViewTransition object or null.

On the incoming page, you check where the user came from using navigation.activation.from.url (via the Navigation API), and you read the current URL from window.location. Between those two pieces of information, you know exactly what kind of navigation just happened and can set up the incoming page’s transition elements accordingly.

Here’s the full lifecycle in order:

1. User clicks a link on Page A.
2. pageswap fires on Page A. This is your window to name elements and customize outgoing state.
3. Browser snapshots the old page (capturing any named elements).
4. Navigation happens, new page loads.
5. pagereveal fires on Page B. You can name elements, customize incoming state.
6. Browser snapshots the new page.
7. Transition animates between the two snapshots.
8. viewTransition.finished resolves (or rejects) on both sides.

Three things to keep in mind with these events:

First, always guard with if (!event.viewTransition) return at the top of your handlers. pagereveal actually fires on every navigation – initial page load, back/forward, the works – not just view transitions. If there’s no transition happening, event.viewTransition will be null, and your handler should bail out gracefully. These handlers are transition sugar, not application logic. Never put side effects in them that you need for the page to work.

Second, pageswap only fires if the old page opted into view transitions and the navigation is same-origin. If the user middle-clicks to open in a new tab, or the navigation goes cross-origin, the event either won’t fire or event.viewTransition will be null. That’s fine, your guard clause handles it.

Third, and this is easy to overlook: both events give you access to viewTransition.finished, which is a promise that resolves when the transition completes or rejects if something goes wrong (like a timeout). Always use this for cleanup, as in removing view-transition-name values you set dynamically, resetting state, whatever. Stale names from a previous transition will ruin your next one.

We’ve been using these events lightly so far – a pagereveal listener to catch timeouts, a pageswap listener for logging. In Part 2 of this little series, they become the backbone of the whole scaling strategy. Stay tuned.

What’s Next

That covers the three gotchas that’ll bite you first: the deprecated meta tag that silently does nothing, the 4-second timeout that kills transitions without telling you, and the image distortion that turns every aspect ratio change into a fun house mirror. Plus the two events that give you hooks into the whole lifecycle.

In Part 2, we’ll tackle the scaling problem. When you’ve got a grid of 48 product cards and each one needs a unique view-transition-name, how do you keep your CSS from exploding? The answer involves view-transition-class (which is different from view-transition-name in ways that aren’t obvious), a just-in-time naming pattern using the pageswap and pagereveal events we just covered. And one critical note: we’ll cover prefers-reduced-motion in Part 2, but if you take nothing else from this series, take this: animations can literally make people physically nauseous. Always check that preference and respect it.

The gotchas are behind you. Now it’s time to make it scale.

Cross-Document View Transitions Series

1. The Gotchas Nobody Mentions (You are here!)
2. Scaling View Transitions Across Hundreds of Elements (Next Monday!)

---

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May 16, 2026 at 10:02AM

What’s !important #11: 3D Voxel Scenes, Flying Focus, CSS Syntaxes, and More

If 3D voxel scenes (that you can style), flying focus animations, or new CSS syntaxes sound like your kinda thing, then this issue of What’s !important is definitely for you.

Also featuring Polypane, scroll-driven animations, and the latest web platform updates from Chrome 148 and Safari 26.5.

Heerich.js — create 3D voxel scenes

Inspired by the sculptures of Erwin Heerich, David Aerne created Heerich.js, a tiny engine for creating 3D voxel scenes. They’re rendered as SVG, and because we can use CSS variables in SVG, the scenes are basically styleable using CSS.

Polypane snippets

Polypane, widely considered to be the best browser for web development, launched a snippet store. So, if you wanted to click on a component and copy the basic HTML without all of the “bloaty crap”, the 1-Click De-crapulator is what you’d want. Fantastic name, by the way.

Animating focus with view transitions

Chris Coyier showed us how to animate focus with view transitions. He also contrasted “unnecessary motion” with WebAIM’s conditional prefers-reduced-motion implementation, which I think is the right approach, because I find it difficult to keep track of focus even when it’s really visible.

Either way, it’s a fantastic exploration of techniques. In addition, way down in the comments, Kilian Valkhof (founder of Polypane, actually) shared his CSS-only technique for floating focus (or, as Chris calls it, “flying focus”).

The of <selector> syntax

Paweł Grzybek mentioned that the of <selector> syntax is actually well supported (Baseline) now, but honestly, I hadn’t even heard of it.

I knew that the CSS :nth-child(n of selector) is a thing, but I didn’t know how well supported it is nowadays. Another thing I didn’t know is that I can use CSS nesting with it like in the example below. Modern CSS is incredible ❣️ developer.mozilla.org/en-US/docs/W… #css

[image or embed]

— Paweł Grzybek (@pawelgrzybek.com) 17:51 · May 5, 2026

The following selector means, “from all siblings, select the second .intro, but only if it’s a <div>.” It’s kind of like div:nth-of-type(2), except that can only select elements of the same type, whereas of <selector> works with any selector.

div:nth-child(2 of .intro) {
  /* ... */
}

Given that & is equivalent to the parent selector (so, .intro), the second example means “from all siblings, select the second .intro within .intro. Also, because there isn’t anything before :nth-child(), .intro can be anything this time around.

.intro {
  :nth-child(2 of &) {
    /* ... */
  }
}

There’s so much happening with CSS right now, so I find it really useful when something I’ve missed comes back around like this. Though funnily enough, as I’m typing this, I’m seeing that Preethi Sam wrote an article on the of <selector> syntax a bit over a week ago (*adds to reading list*).

Understanding the range syntax

The range syntax is a new(ish), more readable syntax with comparison operators (>, <, >=, and <=) for media queries and container queries. Ahmad Shadeed expertly explained how the range syntax works, but keep a close eye on browser support. Web browsers are still shipping container queries and the range syntax for those queries has to be shipped independently. For example, container style queries are shipping in Firefox 151 next week, but the range syntax for container style queries will ship with a flag.

It’s an easy thing to miss (don’t ask me how I know).

Understanding scroll-driven animations

Scroll-driven animations can be kinda tough (especially those with view() timelines), but Josh Comeau’s expert explanation of scroll-driven animations makes them so much easier to understand. With scroll-triggered animations on the way, I highly recommend mastering scroll-driven animations first (if you haven’t already). Again, don’t ask me how I know (*cries in CSS*).

New web platform updates

• Chrome 148
  • Name-only container queries (now Baseline)
  • revert-rule keyword (no stable Safari support)
  • at-rule() function for feature queries (no Safari or Firefox support)
  • loading attribute for <video>/<audio> (no Safari or Firefox support)
• Safari 26.5
  • :open pseudo-class (now Baseline)
  • Updated random() function (no Chrome or Firefox support)

Inspired by this lovely comment, we’d just like to thank our authors for all of the incredible work that they do, as well as the many other educators out there that we undoubtably learn from and become inspired by. Keep on keeping on, CSS-Tricksters!

I'm not a CSS expert, but expert CSS educators are my favorite. Their design skills, ability to take full advantage of the web platform, AND general enthusiasm for building for the web is unmatched by other types of developers!

— George Rodier (@georgerodier.com) 15:42 · Apr 30, 2026

Until next time!

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May 15, 2026 at 10:02AM

Computing and Displaying Discounted Prices in CSS

CSS math isn’t just about how things look! It can also be used to work out useful numeric information. For instance, you could calculate and show the percentage of tasks completed in a to-do list with CSS, helping users keep track of their progress. No need for script or server computation. No latency. No use of additional browser resources.

Working with math has become much simpler and more flexible. I’m going to give you an example using CSS to calculate and display a discounted price whenever you need it, using the base price and discount provided. It’s the sort of thing you see often on e-commerce sites where heavy JavaScript is used to show a product’s full price, its discount amount, and its sale price.

Screenshot taken from gap.com

We can absolutely do that in CSS:

It does rely on some bleeding-edge features that are waiting to gain more browser support, but I think it’s still a good exercise to dig into how we will eventually be able to put these things in practice and eventually use them in our everyday work.

Here’s how I put it together.

The initial markup

The interface in this specific demo displays a list of streaming services for the user to choose from — Netflix, Disney+, HBO, HBO Now, HBO Go, HBO Max, etc. There’s a student discount offer on each subscription that takes a certain percentage amount off the full price.

<li>
  <!-- Service name, base price, and selection toggle -->
  <label>
    <span>Netflix</span>
    <!-- data-price and data-discount store base price and discount offered -->
    <div class="ott-price" data-price="7.99" data-discount="0.2">$7.99</div>
    <!-- Checkbox to track if the user wants to add this service -->
    <input type="checkbox" class="is-ott-selected">
  </label>

  <!-- Toggle for the student discount -->
  <label>
    <span>Apply Student Discount <br> 20%</span>
    <input type="checkbox" class="is-ott-discounted">
  </label>
</li>

<!-- etc. -->

The base price and discount are included as data-* attributes in the element displaying the price. Just remember, the discount only kicks in when you select “Apply Student Discount,” and then you’ll see how much the price is after the discount is applied.

Calculating the price cut

When the discount kicks in, the first step is to slash the base price with a line across it.

/* When the discount toggle is checked inside the .ott container */
.ott:has(.is-ott-discounted:checked) {
  /* Strike through the original price */
  .ott-price {
    text-decoration: line-through;
  }
}

Next, let’s figure out the new discounted price using the data-price and data-discount values.

.ott:has(.is-ott-discounted:checked) {
  .ott-price {
    text-decoration: line-through;
    /* 
        Calculate the new price from the data-* attributes:
        Original Price * (1 - Discount Applied)
    */
    --n: calc(attr(data-price number) * (1 - attr(data-discount number)));
  }
}

The attr(<name> <type>) syntax is relatively new. The function used to only work with the content property, but now supports any CSS property… and parses values into a range of data types, whereas before they were always parsed as strings.

Those arguments:

1. <name>: This is the name of the HTML attribute we want to look at (like href, data-count, or title).
2. <type>: This tells CSS how to “read” the value (like a color, a number, or a length). It’s the newer superpower that makes the work we’re doing here possible.

In our case, we’re using the function to parse both data-price and data-discount into numbers, and then we subtract the discount from the price with CSS math-iness.

The upgraded attr() is super cool, but not Baseline as I’m writing this, so keep an eye on it.

Showing the discounted price

Here’s how we display the updated price once the discount is applied:

.ott:has(.is-ott-discounted:checked) {
  .ott-price {
    text-decoration: line-through;
    --n: calc(attr(data-price number) * (1 - attr(data-discount number)));

    &::after {
      display: inline-block;
      /* Splits the variable --n into two counters: 
          'a' for the whole number (in dollars) and 'b' for the decimals (in cents) */
      counter-set: a calc(round(down, var(--n))) b calc((mod(var(--n), 1)) * 100);
      /* Output: two spaces (\2000), a dollar sign ($), the number, a dot, and the decimals */
      content: "\2000\2000$" counter(a) "." counter(b, decimal-leading-zero);
    }
  }
}

The counter() function helps us turn the numeric value of the --n varable into a content string. Since CSS counters can’t handle decimals (they round the value by default), we treat the numbers before and after the decimal as separate counters and then combine them as strings, adding a dot between them.

1. calc(round(down, var(--n))) takes the variable --n and rounds it down to get the whole dollar amount (stored as counter(a)).
2. calc((mod(var(--n), 1)) * 100) uses the modulo mod() function to isolate the fraction, then multiplies it by 100 to get the cents (stored as counter(b)).
3. The content property inserts a dollar sign before the two counters and then joins them with a dot.

We know that calc() has plenty of browser support. And guess what? The mod() function is newly Baseline!

That’s only if you need decimals and all that. If you’re rounding prices, this would be plenty enough:

counter-set: price calc(var(--n));
content: counter(price);

Here’s the demo once again:

Wrapping up

So, there we have it, a working combination of newer CSS features (the upgraded attr() function), CSS math functions (mod(), round()), and custom counters to nail down something that we see in so many websites, only without scripts. When attr()‘s support for data types becomes a thing in all browsers, this is something you can use in your everyday work.

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Computing and Displaying Discounted Prices in CSS originally handwritten and published with love on CSS-Tricks. You should really get the newsletter as well.

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