Journal tags: sass

4

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Programming CSS to perform Sass colour functions

I wrote recently about moving away from Sass to using native CSS features. I had this to say on the topic of mixins in Sass:

These can be very useful, but now there’s a lot that you can do just in CSS with calc(). The built-in darken() and lighten() mixins are handy though when it comes to colours.

I know we will be getting these in the future but we’re not there yet with CSS.

Anyway, I had all this in the back of my mind when I was reading Lea’s excellent feature in this month’s Increment: A user’s guide to CSS variables. She’s written about a really clever technique of combining custom properites with hsl() colour values for creating colour palettes. (See also: Una’s post on dynamic colour theming with pure CSS.)

As so often happens when I’m reading something written by Lea—or seeing her give a talk—light bulbs started popping over my head (my usual response to Lea’s knowledge bombs is either “I didn’t know you could do that!” or “I never thought of doing that!”).

I immediately set about implementing this technique over on The Session. The trick here is to use separate custom properties for the hue, saturation, and lightness parts of hsl() colour values. Then, when you want to lighten or darken the colour—say, on hover—you can update the lightness part.

I’ve made a Codepen to show what I’m doing.

Let’s say I’m styling a button element. I make custom propertes for hsl() values:

button {
  --button-colour-hue: 19;
  --button-colour-saturation: 82%;
  --button-colour-lightness: 38%;
  background-color: hsl(
    var(--button-colour-hue),
    var(--button-colour-saturation),
    var(--button-colour-lightness)
  );
}

For my buttons, I want the borders to be slightly darker than the background colour. When I was using Sass, I used the darken() function to this. Now I use calc(). Here’s how I make the borders 10% darker:

border-color: hsl(
  var(--button-colour-hue),
  var(--button-colour-saturation),
  calc(var(--button-colour-lightness) - 10%)
);

That calc() function is substracting a percentage from a percentage: 38% minus 10% in this case. The borders will have a lightness of 28%.

I make the bottom border even darker and the top border lighter to give a feeling of depth.

On The Session there’s a “cancel” button style that’s deep red.

Here’s how I set its colour:

.cancel {
  --button-colour-hue: 0;
  --button-colour-saturation: 100%;
  --button-colour-lightness: 40%;
}

That’s it. The existing button declarations take care of assigning the right shades for the border colours.

Here’s another example. Site admins see buttons for some actions only available to them. I want those buttons to have their own colour:

.admin {
  --button-colour-hue: 45;
  --button-colour-saturation: 100%;
  --button-colour-lightness: 40%;
}

You get the idea. It doesn’t matter how many differently-coloured buttons I create, the effect of darkening or lightening their borders is all taken care of.

So it turns out that the lighten() and darken() functions from Sass are available to us in CSS by using a combination of custom properties, hsl(), and calc().

I’m also using this combination to lighten or darken background and border colours on :hover. You can poke around the Codepen if you want to see that in action.

I love seeing the combinatorial power of these different bits of CSS coming together. It really is a remarkably powerful programming language.

Sass and clamp

CSS got some pretty nifty features recently. There’s the min() and max() functions. If you use them for, say, width you can use one rule where previously you would’ve needed to use two (a width declaration followed by either min-width or max-width). But they can also be applied to font-size! That’s very nifty—we’ve never had min-font-size or max-font-size properties.

There’s also the clamp() function. That allows you to set a minimum size, a default size, and a maximum size. Again, it can be used for lengths, like width, or for font-size.

Over on thesession.org, I’ve had some media queries in place for a while now that would increase the font-size for larger screens. It’s nothing crucial, just a nice-to-have so that on wide screens, the font is bumped up accordingly. I realised I could replace all those media queries with one clamp() statement, thanks to the vw (viewport width) unit:

font-size: clamp(1rem, 1.333vw, 1.5rem);

By default, the font-size is 1.333vw (1.333% of the viewport width), but it will never get smaller than 1rem and it will never get larger than 1.5rem.

That works, but there’s a bit of an issue with using raw vw units like that. If someone is on a wide screen and they try to adjust the font size, nothing will happen. The viewport width doesn’t change when you bump the font size up or down.

The solution is to mix in some kind of unit that does respond to the font size being bumped up or down (like, say, the rem unit). Handily, clamp() allows you to combine units, just like calc(). So I can do this:

font-size: clamp(1rem, 0.5rem + 0.666vw, 1.5rem);

The result is much the same as my previous rule, but now—thanks to the presence of that 0.5rem value—the font size responds to being adjusted by the user.

You could use a full 1rem in that default value:

font-size: clamp(1rem, 1rem + 0.333vw, 1.5rem);

…but if you do that, the minimum size (1rem) will never be reached—the default value will always be larger. So in effect it’s no different than saying:

font-size: min(1.rem + 0.333vw, 1.5rem);

I mentioned this to Chris just the other day.

Anyway, I got the result I wanted. I wanted the font size to stay at the browser default size (usually 16 pixels) until the screen was larger than around 1200 pixels. From there, the font size gets gradually bigger, until it hits one and a half times the browser default (which would be 24 pixels if the default size started at 16). I decided to apply it to the :root element (which is html) using percentages:

:root {
  font-size: clamp(100%, 50% + 0.666vw, 150%);
}

(My thinking goes like this: if we take a screen width of 1200 pixels, then 1vw would be 12 pixels: 1200 divided by 100. So for a font size of 16 pixels, that would be 1.333vw. But because I’m combining it with half of the default font size—50% of 16 pixels = 8 pixels—I need to cut the vw value in half as well: 50% of 1.333vw = 0.666vw.)

So I’ve got the CSS rule I want. I dropped it in to the top of my file and…

I got an error.

There was nothing wrong with my CSS. The problem was that I was dropping it into a Sass file (.scss).

Perhaps I am showing my age. Do people even use Sass any more? I hear that post-processors usurped Sass’s dominance (although no-one’s ever been able to explain to me why they’re different to pre-processers like Sass; they both process something you’ve written into something else). Or maybe everyone’s just writing their CSS in JS now. I hear that’s a thing.

The Session is a looooong-term project so I’m very hesitant to use any technology that won’t stand the test of time. When I added Sass into the mix, back in—I think—2012 or so, I wasn’t sure whether it was the right thing to do, from a long-term perspective. But it did offer some useful functionality so I went ahead and used it.

Now, eight years later, it was having a hard time dealing with the new clamp() function. Specifically, it didn’t like the values being calculated through the addition of multiple units. I think it was clashing with Sass’s in-built ability to add units together.

I started to ask myself whether I should still be using Sass. I looked at which features I was using…

Variables. Well, now we’ve got CSS custom properties, which are even more powerful than Sass variables because they can be updated in real time. Sass variables are like const. CSS custom properties are like let.

Mixins. These can be very useful, but now there’s a lot that you can do just in CSS with calc(). The built-in darken() and lighten() mixins are handy though when it comes to colours.

Nesting. I’ve never been a fan. I know it can make the source files look tidier but I find it can sometimes obfuscate what you’re final selectors are going to look like. So this wasn’t something I was using much any way.

Multiple files. Ah! This is the thing I would miss most. Having separate .scss files for separate interface elements is very handy!

But globbing a bunch of separate .scss files into one .css file isn’t really a Sass task. That’s what build tools are for. In fact, that’s what I was already doing with my JavaScript files; I write them as individual .js files that then get concatenated into one .js file using Grunt.

(Yes, this project uses Grunt. I told you I was showing my age. But, you know what? It works. Though seeing as I’m mostly using it for concatenation, I could probably replace it with a makefile. If I’m going to use old technology, I might as well go all the way.)

I swapped out Sass variables for CSS custom properties, mixins for calc(), and removed what little nesting I was doing. Then I stripped the Sass parts out of my Grunt file and replaced them with some concatenation and minification tasks. All of this makes no difference to the actual website, but it means I’ve got one less dependency …and I can use clamp()!

Remember a little while back when I was making a dark mode for my site? I made this observation:

Let’s just take a moment here to pause and reflect on the fact that we can now use CSS to create all sorts of effects that previously required a graphic design tool like Photoshop.

It feels like something similar has happened with tools like Sass. Sass was the hare. CSS is the tortoise. Sass blazed the trail, but now native CSS can achieve much the same result.

It’s like when we used to need something like jQuery to do DOM Scripting succinctly using CSS selectors. Then we got things like querySelector() in JavaScript so we no longer needed the trailblazer.

I’ve said it before and I’ll say it again, the goal of any good library should be to get so successful as to make itself redundant. That is, the ideas and functionality provided by the tool are so useful and widely adopted that the native technologies—HTML, CSS, and JavaScript—take their cue from those tools.

You could argue that this is what happened with Flash. It certainly happened with jQuery and Sass. I’m pretty sure we’ll see the same cycle play out with frameworks like React.

Adoption

Tom wrote a post on Ev’s blog a while back called JavaScript Frameworks: Distribution Channels for Good Ideas (I’ve been hoping he’d publish it on his own site so I’d have a more permanent URL to point to, but so far, no joy). It’s well worth a read.

I don’t really have much of an opinion on his central point that browser makers should work more closely with framework makers. I’m not so sure I agree with the central premise that frameworks are going to be around for the long haul. I think good frameworks—like jQuery—should aim to make themselves redundant.

But anyway, along the way, Tom makes this observation:

Google has an institutional tendency to go it alone.

JavaScript not good enough? Let’s create Dart to replace it. HTML not good enough? Let’s create AMP to replace it. I’m just waiting for them to announce Google Style Sheets.

I don’t really mind these inventions. We’re not forced to adopt them, and generally, we don’t. Tom again:

They poured enormous time and money into Dart, even building an entire IDE, without much to show for it. Contrast Dart’s adoption with the adoption of TypeScript and Flow, which layer improvements on top of JavaScript instead of trying to replace it.

See, that’s a really, really good point. It’s so much easier to get people to adjust their behaviour than to change it completely.

Sass is a really good example of this. You can take any .css file, save it as a .scss file, and now you’re using Sass. Then you can start using features (or not) as needed. Very smart.

Incidentally, I’m very curious to know how many people use the scss syntax (which is the same as CSS) compared to how many people use the sass indented syntax (the one with significant whitespace). In his brilliant Sass for Web Designers book, I don’t think Dan even mentioned the indented syntax.

Or compare the adoption of Sass to the adoption of HAML. Now, admittedly, the disparity there might be because Sass adds new features, whereas HAML is a purely stylistic choice. But I think the more fundamental difference is that Sass—with its scss syntax—only requires you to slightly adjust your behaviour, whereas something like HAML requires you to go all in right from the start.

This is something that has been on my mind a lately while I’ve been preparing my new talk on evaluating technology (the talk went down very well at An Event Apart San Francisco, by the way—that’s a relief). In the talk, I made a reference to one of Grace Hopper’s famous quotes:

Humans are allergic to change.

Now, Grace Hopper subsequently says:

I try to fight that.

I contrast that with the approach that Tim Berners-Lee and Robert Cailliau took with their World Wide Web project. The individual pieces were built on what people were already familiar with. URLs use slashes so they’d be feel similar to UNIX file paths. And the first fledging version of HTML took its vocabulary almost wholesale from a version of SGML already in use at CERN. In fact, you could pretty much take an existing CERN SGML file and open it as an HTML file in a web browser.

Oh, and that browser would ignore any tags it didn’t understand—behaviour that, in my opinion, would prove crucial to the growth and success of HTML. Because of its familiarity, its simplicity, and its forgiving error handling, HTML turned to be more successful than Tim Berners-Lee expected, as he wrote in his book Weaving The Web:

I expected HTML to be the basic waft and weft of the Web but documents of all types: video, computer aided design, sound, animation and executable programs to be the colored threads that would contain much of the content. It would turn out that HTML would become amazingly popular for the content as well.

HTML and SGML; Sass and CSS; TypeScript and JavaScript. The new technology builds on top of the existing technology instead of wiping the slate clean and starting from scratch.

Humans are allergic to change. And that’s okay.

Sasstraction

Emil has been playing around with CSS variables (or “custom properties” as they should more correctly be known), which have started landing in some browsers. It’s well worth a read. He does a great job of explaining the potential of this new CSS feature.

For now though, most of us will be using preprocessors like Sass to do our variabling for us. Sass was the subject of Chris’s talk at An Event Apart in San Francisco last week—an excellent event as always.

At one point, Chris briefly mentioned that he’s quite happy for variables (or constants, really) to remain in Sass and not to be part of the CSS spec. Alas, I didn’t get a chance to chat with Chris about that some more, but I wonder if his thinking aligns with mine. Because I too believe that CSS variables should remain firmly in the realm of preprocessers rather than browsers.

Hear me out…

There are a lot of really powerful programmatic concepts that we could add to CSS, all of which would certainly make it a more powerful language. But I think that power would come at an expense.

Right now, CSS is a relatively-straightforward language:

CSS isn’t voodoo, it’s a simple and straightforward language where you declare an element has a style and it happens.

That’s a somewhat-simplistic summation, and there’s definitely some complexity to certain aspects of CSS—like specificity or margin collapsing—but on the whole, it has a straightforward declarative syntax:

selector {
    property: value;
}

That’s it. I think that this simplicity is quite beautiful and surprisingly powerful.

Over at my collection of design principles, I’ve got a section on Bert Bos’s essay What is a good standard? In theory, it’s about designing standards in general, but it matches very closely to CSS in particular. Some of the watchwords are maintainability, modularity, extensibility, simplicity, and learnability. A lot of those principles are clearly connected. I think CSS does a pretty good job of balancing all of those principles, while still providing authors with quite a bit of power.

Going back to that fundamental pattern of CSS, you’ll notice that is completely modular:

selector {
    property: value;
}

None of those pieces (selector, property, value) reference anything elsewhere in the style sheet. But as soon as you introduce variables, that modularity is snapped apart. Now you’ve got a value that refers to something defined elsewhere in the style sheet (or even in a completely different style sheet).

But variables aren’t the first addition to CSS that sacrifices modularity. CSS animations already do that. If you want to invoke a keyframe animation, you have to define it. The declaration and the invocation happen in separate blocks:

selector {
    animation-name: myanimation;
}
@keyframes myanimation {
    from {
        property: value;
    }
    to {
        property: value;
    }
}

I’m not sure that there’s any better way to provide powerful animations in CSS, but this feature does sacrifice modularity …and I believe that has a knock-on effect for learnability and readability.

So CSS variables (or custom properties) aren’t the first crack in the wall of the design principles behind CSS. To mix my metaphors, the slippery slope began with @keyframes (and maybe @font-face too).

But there’s no denying that having variables/constants in CSS provide a lot of power. There’s plenty of programming ideas (like loops and functions) that would provide lots of power to CSS. I still don’t think it’s a good idea to mix up the declarative and the programmatic. That way lies XSLT—a strange hybrid beast that’s sort of a markup language and sort of a programming language.

I feel very strongly that HTML and CSS should remain learnable languages. I don’t just mean for professionals. I believe it’s really important that anybody should be able to write and style a web page.

Now does that mean that CSS must therefore remain hobbled? No, I don’t think so. Thanks to preprocessors like Sass, we can have our cake and eat it too. As professionals, we can use tools like Sass to wield the power of variables, functions (mixins) and other powerful concepts from the programming world.

Preprocessors cut the Gordian knot that’s formed from the tension in CSS between providing powerful features and remaining relatively easy to learn. That’s why I’m quite happy for variables, mixins, nesting and the like to remain firmly in the realm of Sass.

Incidentally, at An Event Apart, Chris was making the case that Sass’s power comes from the fact that it’s an abstraction. I don’t think that’s necessarily true—I think the fact that it provides a layer of abstraction might be a red herring.

Chris made the case for abstractions being inherently A Good Thing. Certainly if you go far enough down the stack (to Assembly Language), that’s true. But not all abstractions are good abstractions, and I’m not just talking about Spolky’s law of leaky abstractions.

Let’s take two different abstractions that share a common origin story:

  • Sass is an abstraction layer for CSS.
  • Haml is an abstraction layer for HTML.

If abstractions were inherently A Good Thing, then they would both provide value to some extent. But whereas Sass is a well-designed tool that allows CSS-savvy authors to write their CSS more easily, Haml is a steaming pile of poo.

Here’s the crucial difference: Sass doesn’t force you to write all your CSS in a completely new way. In fact, every .css file is automatically a valid .scss file. You are then free to use—or ignore—the features of Sass at your own pace.

Haml, on the other hand, forces you to use a completely new whitespace-significant syntax that maps on to HTML. There are no half-measures. It is an abstraction that is not only opinionated, it refuses to be reasoned with.

So I don’t think that Sass is good because it’s an abstraction; I think that Sass is good because it’s a well-designed abstraction. Crucially, it’s also easy to learn …just like CSS.