Dave Rupert created a little lovely Houdini Paint Worklet that allows you set a background color with an alpha on elements. The Worklet’s code is as simple as this:
Houdini is a set of low-level APIs that exposes parts of the CSS engine, giving developers the power to extend CSS by hooking into the styling and layout process of a browser’s rendering engine. Houdini is a group of APIs that give developers direct access to the CSS Object Model (CSSOM), enabling developers to write code the browser can parse as CSS, thereby creating new CSS features without waiting for them to be implemented natively in browsers.
It really is magic, hence it's name Houdini. I'd recommend this slidedeck and this video to get you started
Using the two custom properties --bg-alpha and --bg-color you can control how it should look (in browsers that support Houdini, i.e. Chromium).
Elijah Manor digs into Date’s toLocaleDateString() and toLocaleTimeString() methods to format Dates and Times in JavaScript, with respect to a passed locale.
const date = new Date();
console.log(date.toLocaleDateString('en-US'));
// 7/19/2020
const dateOptions = {
weekday: 'long',
year: 'numeric',
month: 'long',
day: 'numeric',
};
console.log(date.toLocaleDateString('en-US', dateOptions));
// Sunday, July 19, 2020
console.log(
date.toLocaleDateString('fr-FR', {
month: 'long',
}),
);
// juillet
To me, the single greatest addition to CSS over the past 20 years is Custom Properties. They’ve opened up a ton of possibilities, and make us CSS Authors way more productive. The way they are specced — as properties and not simply variables — is pure genius and gives them their true power.
Just like Chris I’m more leaning towards using --color here because although these Custom Properties are very nice, they do come at a cost: complexity. As I’ve tweeted back in February:
Every time I encounter a CSS demo that's heavily relying on Custom Properties, I'm reminded of Gall's Law:
“A complex system that works is invariably found to have evolved from a simple system that worked.”
👉 It takes me extra effort to decipher how the code works.
Thankfully there’s DevTools’s “Computed Styles” pane to somewhat help me out there 🙂
Additionally, settings these individual props on :root and then overriding --color-h for some specific element won’t work, because --color will already have been computed before it is passed down the inheritance tree. This is what Chris calls The Big Gotcha With Custom Properties.
~
Over at her blog, Lea Verou also wrote about Custom Properties and how to provide defaults. Interestingly, Lea opts to no directly use the passed in Custom Property, but resorts to something she calls “pseudo-private custom properties” that get an extra _ prefix.
My preferred solution is what I call pseudo-private custom properties. You use a different property internally than the one you expose, which is set to the one you expose plus the fallback.
As an extra she also taps into Houdini’s powerful @property to register a default value. Unfortunately Houdini is only supported in Chromium at the time of writing.
🎩 Houdini, ain't that a magician?
Houdini is a set of low-level APIs that exposes parts of the CSS engine, giving developers the power to extend CSS by hooking into the styling and layout process of a browser’s rendering engine. Houdini is a group of APIs that give developers direct access to the CSS Object Model (CSSOM), enabling developers to write code the browser can parse as CSS, thereby creating new CSS features without waiting for them to be implemented natively in browsers.
It really is magic, hence it's name Houdini. I'd recommend this slidedeck and this video to get you started
~
👀 Don’t try this at home
Because the contents of Custom Properties are not parsed until they are used (using var()), you can store anything in them. That means you could abuse them to create faux Single-line Comments in CSS:
😅 Single-line Comments in CSS using Custom Properties.
Advantage: The @ChromeDevTools expose 'm to those snooping around.
Disadvantage: Waste of CPU cycles and memory as these values get passed to the CSS engine to simply sit there doing nothing. pic.twitter.com/WtTTdpGcUw
In this post, I will share my current take on CSS structure. It does not religiously follow any particular methodology, although people familiar with Harry Roberts’ ITCSS (“Inverted Triangle CSS”) will definitely recognize parts of his methodology.
Earlier this year Dave Rupert spoke at An Event Apart’s Spring Summit with a talk on Web Components:
It’s the year 2021. Lots of us are building our websites and apps with components and design systems, perhaps leveraging a JavaScript framework to help glue all the pieces together. The web has matured in the last 5 years and it might be time to start looking at how the Web’s native component system can give our HTML super powers. We’ll talk about how to create, style, and use Web Components in your project today as well as look at how the components you build today may offer a pathway to web standardization and help inform and influence the Web for future generations.
After an introduction on how to use Web Components with HTML, Dave digs into styling Web Components (which CSS selectors/properties pierce the Shadow DOM Boundary and which don’t?) to end with a section on building Web Components with JavaScript (Vanilla and Lit).
If you’re goofing around with docker-compose, then be sure to give Lando a try:
Lando is a free, open source, cross-platform, local development environment and DevOps tool built on Docker container technology. Designed to work with most major languages, frameworks and services, Lando provides an easy way for developers of all skill levels to specify simple or complex requirements for their projects, and then quickly get to work on them.
Comes with easy recipes(Drupal, Laravel, Mean, Symfony, WordPress, …) and shortcut-commands that immediately (e.g. lando node --version runs immediately in your container)
At a recent PHPWVL meetup, Ike Devolder gave a talk on Lando that’s worth checking out.
Steve Ruiz recently noted that in many design tools a group of shapes would end up at a different position after you rotate them and then successively rotate them back.
The problem here is that the average center of the group — the point on which the group rotates — changes after the first rotation. Knowing this, the solution — first detailed on Twitter and later on his blog — is pretty straightforward …
