Journal tags: declarative

14

sparkline

button invoketarget=”share”

I’ve written quite a bit about how I’d like to see a declarative version of the Web Share API. My current proposal involves extending the type attribute on the button element to support a value of “share”.

Well, maybe a different attribute will end up accomplishing what I want! Check out the explainer for the “invokers” proposal over on Open UI. The idea is to extend the button element with a few more attributes.

The initial work revolves around declaratively opening and closing a dialog, which is an excellent use case and definitely where the effort should be focused to begin with.

But there’s also investigation underway into how this could be away to provide a declarative way of invoking JavaScript APIs. The initial proposal is already discussing the fullscreen API, and how it might be invoked like this:

button invoketarget="toggleFullsceen"

They’re also looking into a copy-to-clipboard action. It’s not much of a stretch to go from that to:

button invoketarget="share"

Remember, these are APIs that require a user interaction anyway so extending the button element makes a lot of sense.

I’ll be watching this proposal keenly. I’d love to see some of these JavaScript cowpaths paved with a nice smooth coating of declarative goodness.

Button types

I’ve been banging the drum for a button type="share" for a while now.

I’ve also written about other potential button types. The pattern I noticed was that, if a JavaScript API first requires a user interaction—like the Web Share API—then that’s a good hint that a declarative option would be useful:

The Fullscreen API has the same restriction. You can’t make the browser go fullscreen unless you’re responding to user gesture, like a click. So why not have button type=”fullscreen” in HTML to encapsulate that? And again, the fallback in non-supporting browsers is predictable—it behaves like a regular button—so this is trivial to polyfill.

There’s another “smell” that points to some potential button types: what functionality do browsers provide in their interfaces?

Some browsers provide a print button. So how about button type="print"? The functionality is currently doable with button so this would be a nicer, more declarative way of doing something that’s already possible.

It’s the same with back buttons, forward buttons, and refresh buttons. The functionality is available through a browser interface, and it’s also scriptable, so why not have a declarative equivalent?

How about bookmarking?

And remember, the browser interface isn’t always visible: progressive web apps that launch with minimal browser UI need to provide this functionality.

Šime Vidas was wondering about button type="copy” for copying to clipboard. Again, it’s something that’s currently scriptable and requires a user gesture. It’s a little more complex than the other actions because there needs to be some way of providing the text to be copied, but it’s definitely a valid use case.

  • button type="share"
  • button type="fullscreen"
  • button type="print"
  • button type="bookmark"
  • button type="back"
  • button type="forward"
  • button type="refresh"
  • button type="copy"

Any more?

Five questions

In just a couple of weeks, I’ll be heading to Bristol for Pixel Pioneers. The line-up looks really, really good …with the glaring exception of the opening talk, which I’ll be delivering. But once that’s done, I’m very much looking forward to enjoying the rest of the day’s talks.

There are still tickets available if you fancy joining me.

This will be my second time speaking at this conference. I spoke at the inaugural conference back in 2017 when I gave a talk called Evaluating Technology. This time my talk is called Declarative Design.

A few weeks back, Oliver asked me some questions about my upcoming talk. I figured I’d post my answers here…

Welcome back to Pixel Pioneers! You return with another keynote - how do you manage to stay so ever-enthusiastic about designing for the web?

Well, I’d say my enthusiasm is mixed with frustration. And that’s always been the case. Just as I’ve always found new things that excite me about the World Wide Web, there are just as many things that upset me.

But that’s okay. Both forces can be motivating. When I find myself writing a blog post or preparing a talk, the impetus might be “This is so cool! Check this out!” or it might be “This is so maddening! What’s happening!?” …or perhaps a mix of both.

But to answer your question, the World Wide Web never stays still so there’s always something to get excited about. Equally, the longer the web exists, the more sense it makes to examine the fundamental bedrock—HTML, accessibility,progressive enhancement—and see how they’re just as important as ever. And that’s also something to get excited about!

Without too many spoilers, what can we expect to take away from your talk?

I’m hoping to provide people with a lens that they can use to examine their tools, processes, and approaches to designing for the web. It’s a fairly crude lens—it divides the world into a binary split that I’ve borrowed from the world of programming; imperative and declarative languages. But it’s a surprisingly thought-provoking angle.

Along the way I’ll also be pointing out some of the incredible things that we can do with CSS now. In the past few years there’s been an explosion in capabilities.

But this won’t be a code-heavy presentation. It’s mostly about the ideas. I’ll be referencing some projects by other people that I’m very excited by.

What other web design and development tools, techniques and technologies are you currently most excited about?

Outside of the world of CSS—which is definitely where a lot of the most exciting developments are happening—I’m really interested in the View Transitions API. If it delivers on its promise, it could be a very useful nail in the coffin of uneccessary single page apps. But I’m a little nervous. Right now the implementation only works for single page apps, which makes it an incentive to use that model. I really, really hope that the multipage version ships soon.

But honestly, I probably get most excited about discovering some aspect of HTML that I wasn’t aware of. Even after all these years the language can still surprise me.

And on the flipside, what bugs you most about the web at the moment?

How much time have you got?

Seriously though, the thing that’s really bugged me for the past decade is the increasing complexity of “modern” frontend development when it isn’t driven by user needs. Yes, I’m talking about JavaScript frameworks like React and the assumption that everything should be a single page app.

Honestly, the mindset became so ubiquitous that I felt like I must be missing something. But no, the situation really has spiralled out of control, much to the detriment of end users.

Luckily we’re starting to see the pendulum swing back. The proponents of trickle-down developer convenience are having to finally admit that it’s bollocks.

I don’t care if the move back to making websites is re-labelled as “isomorphic server-rendered multi-page apps.” As long as we make sensible architectural decisions, that’s all that matters.

What’s next, Jeremy?

Right now I’m curating the line-up for this year’s UX London conference which is the week after Pixel Pioneers. As you know, conference curation is a lot of work, but it’s also very rewarding. I’m really proud of the line-up.

It’s been a while since the last season of the Clearleft podcast. I hope to remedy that soon. It takes a lot of effort to make even one episode, but again, it’s very rewarding.

Links for Declarative Design

At the end of next week, I will sally forth to California. I’m going to wend my way to San Francisco where I will be speaking at An Event Apart.

I am very much looking forward to speaking at my first in-person AEAs in exactly three years. That was also in San Francisco, right before The Situation.

I hope to see you there. There are still tickets available.

I’ve put together a brand new talk that I’m very excited about. I’ve already written about the prep for this talk:

So while I’ve been feeling somewhat under the gun as I’ve been preparing this new talk for An Event Apart, I’ve also been feeling that the talk is just the culmination; a way of tying together some stuff I’ve been writing about it here for the past year or two.

The talk is called Declarative Design. Here’s the blurb:

Different browsers, different devices, different network speeds…designing for the web can feel like a never-ending battle for control. But what if the solution is to relinquish control? Instead of battling the unknowns, we can lean into them. In the world of programming, there’s the idea of declarative languages: describing what you want to achieve without specifying the exact steps to get there. In this talk, we’ll take this concept of declarative programming and apply it to designing for the web. Instead of focusing on controlling the outputs of the design process, we’ll look at creating the right inputs instead. Leave the final calculations for the outputs to the browser—that’s what computers are good at. We’ll look at CSS features, design systems, design principles, and more. Then you’ll be ready to embrace the fluid, ever-changing, glorious messiness of the World Wide Web!

If you’d a glimpse into the inside of my head while I’ve been preparing this talk, here’s a linkdump of various resources that are either mentioned in the talk or influenced it…

Declarative Design

HTML

CSS

Design Tools

Design systems

History

People

Design systems thinking

As you can probably tell from the stuff I’ve been linking to today and today’s Clearleft newsletter, I’ve got design systems on my mind.

What I like about design systems is they encourage systems thinking …in theory. I mean, it’s right there in the name, right? But in practice I see design sytems focusing on the opposite of systems thinking: analytical thinking.

Okay, I realise that’s a gross oversimplification of both systems and thinking and analytical thinking, but why stop now?

Analytical thinking is all about breaking a big thing down into its constituent parts. By examining the individual parts you gain an understanding of the whole.

This is a great approach to understanding the world, particularly when it comes to phenonema that work the same everywhere in the universe. But it doesn’t work so well with messy phenonema like, say, people doing things together.

Systems thinking takes the opposite approach. You look at the bigger picture with the understanding that the individual parts are all interconnected somehow and can’t really be viewed in isolation.

To put it very bluntly, analytical thinking is about zooming in whereas systems thinking is about zooming out.

When it comes to design systems—or design in general—you need to have a mix of both.

If you neglect the analytical thinking, you may end up with a design system that has well-documented processes for how it operates, but is lacking the individual components.

If you neglect the systems thinking, you may end up with a design system that’s a collection of components, but with no understanding of how they’re supposed to work together.

Ideally, you want a good mix of both.

But I’ve got to be honest: if I had to err on one side more than the other, I think I’d rather have less analytical thinking and more systems thinking.

Declarative design systems

When I wrote about the idea of declarative design it really resonated with a lot of people.

I think that there’s a general feeling of frustration with the imperative approach to designing and developing—attempting to specify everything exactly up front. It just doesn’t scale. As Jason put it, the traditional web design process is fundamentally broken:

This is the worst of all worlds—a waterfall process creating dozens of artifacts, none of which accurately capture how the design will look and behave in the browser.

In theory, design systems could help overcome this problem; spend a lot of time up front getting a component to be correct and then it can be deployed quickly in all sorts of situations. But the word “correct” is doing a lot of work there.

If you’re approaching a design system with an imperative mindset then “correct” means “exact.” With this approach, precision is seen as valuable: precise spacing, precise numbers, precise pixels.

But if you’re approaching a design system with a declarative mindset, then “correct” means “resilient.” With this approach, flexibility is seen as valuable: flexible spacing, flexible ranges, flexible outputs.

These are two fundamentally different design approaches and yet the results of both would be described as a design system. The term “design system” is tricky enough to define as it is. This is one more layer of potential misunderstanding: one person says “design system” and means a collection of very precise, controlled, and exact components; another person says “design system” and means a predefined set of boundary conditions that can be used to generate components.

Personally, I think the word “system” is the important part of a design system. But all too often design systems are really collections rather than systems: a collection of pre-generated components rather than a system for generating components.

The systematic approach is at the heart of declarative design; setting up the rules and ratios in advance but leaving the detail of the final implementation to the browser at runtime.

Let me give an example of what I think is a declarative approach to a component. I’ll use the “hello world” of design system components—the humble button.

Two years ago I wrote about programming CSS to perform Sass colour functions. I described how CSS features like custom properties and calc() can be used to recreate mixins like darken() and lighten().

I showed some CSS for declaring the different colour elements of a button using hue, saturation and lightness encoded as custom properties. Here’s a CodePen with some examples of different buttons.

See the Pen Button colours by Jeremy Keith (@adactio) on CodePen.

If these buttons were in an imperative design system, then the output would be the important part. The design system would supply the code needed to make those buttons exactly. If you need a different button, it would have to be added to the design system as a variation.

But in a declarative design system, the output isn’t as important as the underlying ruleset. In this case, there are rules like:

For the hover state of a button, the lightness of its background colour should dip by 5%.

That ends up encoded in CSS like this:

button:hover {
    background-color: hsl(
        var(--button-colour-hue),
        var(--button-colour-saturation),
        calc(var(--button-colour-lightness) - 5%)
    );
}

In this kind of design system you can look at some examples to see the results of this rule in action. But those outputs are illustrative. They’re not the final word. If you don’t see the exact button you want, that’s okay; you’ve got the information you need to generate what you need and still stay within the pre-defined rules about, say, the hover state of buttons.

This seems like a more scalable approach to me. It also seems more empowering.

One of the hardest parts of embedding a design system within an organisation is getting people to adopt it. In my experience, nobody likes adopting something that’s being delivered from on-high as a pre-made sets of components. It’s meant to be helpful: “here, use this pre-made components to save time not reinventing the wheel”, but it can come across as overly controlling: “we don’t trust you to exercise good judgement so stick to these pre-made components.”

The declarative approach is less controlling: “here are pre-defined rules and guidelines to help you make components.” But this lack of precision comes at a cost. The people using the design system need to have the mindset—and the ability—to create the components they need from the systematic rules they’ve been provided.

My gut feeling is that the imperative mindset is a good match for most of today’s graphic design tools like Figma or Sketch. Those tools deal with precise numbers rather than ranges and rules.

The declarative mindset, on the other hand, increasingly feels like a good match for CSS. The language has evolved to allow rules to be set up through custom properties, calc(), clamp(), minmax(), and so on.

So, as always, there isn’t a right or wrong approach here. It all comes down to what’s most suitable for your organisation.

If your designers and developers have an imperative mindset and Figma files are considered the source of truth, than they would be better served by an imperative design system.

But if you’re lucky enough to have a team of design engineers that think in terms of HTML and CSS, then a declarative design system will be a force multiplier. A bicycle for the design engineering mind.

Declarative design

I feel like in the past few years there’s been a number of web design approaches that share a similar mindset. Intrinsic web design by Jen; Every Layout by Andy and Heydon; Utopia by Trys and James.

To some extent, their strengths lie in technological advances in CSS: flexbox, grid, calc, and so on. But more importantly, they share an approach. They all focus on creating the right inputs rather than trying to control every possible output. Leave the final calculations for those outputs to the browser—that’s what computers are good at.

As Andy puts it:

Be the browser’s mentor, not its micromanager.

Reflecting on Utopia’s approach, Jim Nielsen wrote:

We say CSS is “declarative”, but the more and more I write breakpoints to accommodate all the different ways a design can change across the viewport spectrum, the more I feel like I’m writing imperative code. At what quantity does a set of declarative rules begin to look like imperative instructions?

In contrast, one of the principles of Utopia is to be declarative and “describe what is to be done rather than command how to do it”. This approach declares a set of rules such that you could pick any viewport width and, using a formula, derive what the type size and spacing would be at that size.

Declarative! Maybe that’s the word I’ve been looking for to describe the commonalities between Utopia, Every Layout, and intrinsic web design.

So if declarative design is a thing, does that also mean imperative design is also a thing? And what might the tools and technologies for imperative design look like?

I think that Tailwind might be a good example of an imperative design tool. It’s only about the specific outputs. Systematic thinking is actively discouraged; instead you say exactly what you want the final pixels on the screen to be.

I’m not saying that declarative tools—like Utopia—are right and that imperative tools—like Tailwind—are wrong. As always, it depends. In this case, it depends on the mindset you have.

If you agree with this statement, you should probably use an imperative design tool:

CSS is broken and I want my tools to work around the way CSS has been designed.

But if you agree with this statement, you should probably use a declarative design tool:

CSS is awesome and I want my tools to amplify the way that CSS had been designed.

If you agree with the first statement but you then try using a declarative tool like Utopia or Every Layout, you will probably have a bad time. You’ll probably hate it. You may declare the tool to be “bad”.

Likewise if you agree with the second statement but you then try using an imperative tool like Tailwind, you will probably have a bad time. You’ll probably hate it. You may declare the tool to be “bad”.

It all depends on whether the philosophy behind the tool matches your own philosophy. If those philosophies match up, then using the tool will be productive and that tool will act as an amplifier—a bicycle for the mind. But if the philosophy of the tool doesn’t match your own philosophy, then you will be fighting the tool at every step—it will slow you down.

Knowing that this spectrum exists between declarative tools and imperative tools can help you when you’re evaluating technology. You can assess whether a web design tool is being marketed on the premise that CSS is broken or on the premise that CSS is awesome.

I wonder whether your path into web design and development might also factor into which end of the spectrum you’d identify with. Like, if your background is in declarative languages like HTML and CSS, maybe intrisic web design really resonates. But if your background is in imperative languages like JavaScript, perhaps Tailwind makes more sense to you.

Again, there’s no right or wrong here. This is about matching the right tool to the right mindset.

Personally, the declarative design approach fits me like a glove. It feels like it’s in the tradition of John’s A Dao Of Web Design or Ethan’s Responsive Web Design—ways of working with the grain of the web.

When should there be a declarative version of a JavaScript API?

I feel like it’s high time I revived some interest in my proposal for button type="share". Last I left it, I was gathering use cases and they seem to suggest that the most common use case for the Web Share API is sharing the URL of the current page.

If you want to catch up on the history of this proposal, here’s what I’ve previously written:

Remember, my proposal isn’t to replace the JavaScript API, it’s to complement it with a declarative option. The declarative option doesn’t need to be as fully featured as the JavaScript API, but it should be able to cover the majority use case. I think this should hold true of most APIs.

A good example is the Constraint Validation API. For the most common use cases, the required attribute and input types like “email”, “url”, and “number” have you covered. If you need more power, reach for the JavaScript API.

A bad example is the Geolocation API. The most common use case is getting the user’s current location. But there’s no input type="geolocation" (or button type="geolocation"). Your only choice is to use JavaScript. It feels heavy-handed.

I recently got an email from Taylor Hunt who has come up with a good litmus test for JavaScript APIs that should have a complementary declarative option:

I’ve been thinking about how a lot of recently-proposed APIs end up having to deal with what Chrome devrel’s been calling the “user gesture/activation budget”, and wondering if that’s a good indicator of when something should have been HTML in the first place.

I think he’s onto something here!

Think about any API that requires a user gesture. Often the documentation or demo literally shows you how to generate a button in JavaScript in order to add an event handler to it in order to use the API. Surely that’s an indication that a new button type could be minted?

The Web Share API is a classic example. You can’t invoke the API after an event like the page loading. You have to invoke the API after a user-initiated event like, oh, I don’t know …clicking on a button!

The Fullscreen API has the same restriction. You can’t make the browser go fullscreen unless you’re responding to user gesture, like a click. So why not have button type="fullscreen" in HTML to encapsulate that? And again, the fallback in non-supporting browsers is predictable—it behaves like a regular button—so this is trivial to polyfill. I should probably whip up a polyfill to demonstrate this.

I can’t find a list of all the JavaScript APIs that require a user gesture, but I know there’s more that I’m just not thinking of. I’d love to see if they’d all fit this pattern of being candidates for a new button type value.

The only potential flaw in this thinking is that some APIs that require a user gesture might also require a secure context (either being served over HTTPS or localhost). But as far as I know, HTML has never had the concept of features being restricted by context. An element is either supported or it isn’t.

That said, there is some prior art here. If you use input type="password" in a non-secure context—like a page being served over HTTP—the browser updates the interface to provide scary warnings. Perhaps browsers could do something similar for any new button types that complement secure-context JavaScript APIs.

Standards processing

I’ve been like a dog with a bone the way I’ve been pushing for a declarative option for the Web Share API in the shape of button type=“share”. It’s been an interesting window into the world of web standards.

The story so far…

That’s the situation currently. The general consensus seems to be that it’s probably too soon to be talking about implementation at this stage—the Web Share API itself is still pretty new—but gathering data to inform future work is good.

In planning for the next TPAC meeting (the big web standards gathering), Marcos summarised the situation like this:

Not blocking: but a proposal was made by @adactio to come up with a declarative solution, but at least two implementers have said that now is not the appropriate time to add such a thing to the spec (we need more implementation experience + and also to see how devs use the API) - but it would be great to see a proposal incubated at the WICG.

Now this where things can get a little confusing because it used to be that if you wanted to incubate a proposal, you’d have to do on Discourse, which is a steaming pile of crap that requires JavaScript in order to put text on a screen. But Šime pointed out that proposals can now be submitted on Github.

So that’s where I’ve submitted my proposal, linking through to the explainer document.

Like I said, I’m not expecting anything to happen anytime soon, but it would be really good to gather as much data as possible around existing usage of the Web Share API. If you’re using it, or you know anyone who’s using it, please, please, please take a moment to provide a quick description. And if you could help spread the word to get that issue in front of as many devs as possible, I’d be very grateful.

(Many thanks to everyone who’s already contributed to that issue—much appreciated!)

The reason for a share button type

If you’re at all interested in what I wrote about a declarative Web Share API—and its sequel, a polyfill for button type=”share”—then you might be interested in an explainer document I’ve put together.

It’s a useful exercise for me to enumerate the reasoning for button type=“share” in one place. If you have any feedback, feel free to fork it or create an issue.

The document is based on my initial blog posts and the discussion that followed in this issue on the repo for the Web Share API. In that thread I got some pushback from Marcos. There are three points he makes. I think that two of them lack merit, but the third one is actually spot on.

Here’s the first bit of pushback:

Apart from placing a button in the content, I’m not sure what the proposal offers over what (at least one) browser already provides? For instance, Safari UI already provides a share button by default on every page

But that is addressed in the explainer document for the Web Share API itself:

The browser UI may not always be available, e.g., when a web app has been installed as a standalone/fullscreen app.

That’s exactly what I wanted to address. Browser UI is not always available and as progressive web apps become more popular, authors will need to provide a way for users to share the current URL—something that previously was handled by browsers.

That use-case of sharing the current page leads nicely into the second bit of pushback:

The API is specialized… using it to share the same page is kinda pointless.

But again, the explainer document for the Web Share API directly contradicts this:

Sharing the page’s own URL (a very common case)…

Rather than being a difference of opinion, this is something that could be resolved with data. I’d really like to find out how people are currently using the Web Share API. How much of the current usage falls into the category of “share the current page”? I don’t know the best way to gather this data though. If you have any ideas, let me know. I’ve started an issue where you can share how you’re using the Web Share API. Or if you’re not using the Web Share API, but you know someone who is, please let them know.

Okay, so those first two bits of pushback directly contradict what’s in the explainer document for the Web Share API. The third bit of pushback is more philosophical and, I think, more interesting.

The Web Share API explainer document does a good job of explaining why a declarative solution is desirable:

The link can be placed declaratively on the page, with no need for a JavaScript click event handler.

That’s also my justification for having a declarative alternative: it would be easier for more people to use. I said:

At a fundamental level, declarative technologies have a lower barrier to entry than imperative technologies.

But Marcos wrote:

That’s demonstrably false and a common misconception: See OWL, XForms, SVG, or any XML+namespace spec. Even HTML is poorly understood, but it just happens to have extremely robust error recovery (giving the illusion of it being easy). However, that’s not a function of it being “declarative”.

He’s absolutely right.

It’s not so much that I want a declarative option—I want an option that has robust error recovery. After all, XML is a declarative language but its error handling is as strict as an imperative language like JavaScript: make one syntactical error and nothing works. XML has a brittle error-handling model by design. HTML and CSS have extremely robust error recovery by design. It’s that error-handling model that gives HTML and CSS their robustness.

I’ve been using the word “declarative” when I actually meant “robust in handling errors”.

I guess that when I’ve been talking about “a declarative solution”, I’ve been thinking in terms of the three languages parsed by browsers: HTML, CSS, and JavaScript. Two of those languages are declarative, and those two also happen to have much more forgiving error-handling than the third language. That’s the important part—the error handling—not the fact that they’re declarative.

I’ve been using “declarative” as a shorthand for “either HTML or CSS”, but really I should try to be more precise in my language. The word “declarative” covers a wide range of possible languages, and not all of them lower the barrier to entry. A declarative language with a brittle error-handling model is as daunting as an imperative language.

I should try to use a more descriptive word than “declarative” when I’m describing HTML or CSS. Resilient? Robust?

With that in mind, button type=“share” is worth pursuing. Yes, it’s a declarative option for using the Web Share API, but more important, it’s a robust option for using the Web Share API.

I invite you to read the explainer document for a share button type and I welcome your feedback …especially if you’re currently using the Web Share API!

A polyfill for button type=”share”

After writing about a declarative Web Share API here yesterday I thought I’d better share the idea (see what I did there?).

I opened an issue on the Github repo for the spec.

(I hope that’s the right place for this proposal. I know that in the past ideas were kicked around on the Discourse site for Web platform Incubator Community Group but I can’t stand Discourse. It literally requires JavaScript to render anything to the screen even though the entire content is text. If it turns out that that is the place I should’ve posted, I guess I’ll hold my nose and do it using the most over-engineered reinvention of the browser I’ve ever seen. But I believe that the plan is for WICG to migrate proposals to Github anyway.)

I also realised that, as the JavaScript Web Share API already exists, I can use it to polyfill my suggestion for:

<button type="share">

The polyfill also demonstrates how feature detection could work. Here’s the code.

This polyfill takes an Inception approach to feature detection. There are three nested levels:

  1. This browser supports button type="share". Great! Don’t do anything. Otherwise proceed to level two.
  2. This browser supports the JavaScript Web Share API. Use that API to share the current page URL and title. Otherwise proceed to level three.
  3. Use a mailto: link to prefill an email with the page title as the subject and the URL in the body. Ya basic!

The idea is that, as long as you include the 20 lines of polyfill code, you could start using button type="share" in your pages today.

I’ve made a test page on Codepen. I’m just using plain text in the button but you could use a nice image or SVG or combination. You can use the Codepen test page to observe two of the three possible behaviours browsers could exhibit:

  1. A browser supports button type="share". Currently that’s none because I literally made this shit up yesterday.
  2. A browser supports the JavaScript Web Share API. This is Safari on Mac, Edge on Windows, Safari on iOS, and Chrome, Samsung Internet, and Firefox on Android.
  3. A browser supports neither button type="share" nor the existing JavaScript Web Share API. This is Firefox and Chrome on desktop (and Edge if you’re on a Mac).

See the Pen Polyfill for button type=”share" by Jeremy Keith (@adactio) on CodePen.

The polyfill doesn’t support Internet Explorer 11 or lower because it uses the DOM closest() method. Feel free to fork and rewrite if you need to support old IE.

A declarative Web Share API

I’ve written about the Web Share API before. It’s a handy little bit of JavaScript that—if supported—brings up a system-level way of sharing a page. Seeing as it probably won’t be long before we won’t be able to see full URLs in browsers anymore, it’s going to fall on us as site owners to provide this kind of fundamental access.

Right now the Web Share API exists entirely in JavaScript. There are quite a few browser APIs like that, and it always feels like a bit of a shame to me. Ideally there should be a JavaScript API and a declarative option, even if the declarative option isn’t as powerful.

Take form validation. To cover the most common use cases, you probably only need to use declarative markup like input type="email" or the required attribute. But if your use case gets a bit more complicated, you can reach for the Constraint Validation API in JavaScript.

I like that pattern. I wish it were an option for JavaScript-only APIs. Take the Geolocation API, for example. Right now it’s only available through JavaScript. But what if there were an input type="geolocation" ? It wouldn’t cover all use cases, but it wouldn’t have to. For the simple case of getting someone’s location (like getting someone’s email or telephone number), it would do. For anything more complex than that, that’s what the JavaScript API is for.

I was reminded of this recently when Ada Rose Cannon tweeted:

It really feels like there should be a semantic version of the share API, like a mailto: link

I think she’s absolutely right. The Web Share API has one primary use case: let the user share the current page. If that use case could be met in a declarative way, then it would have a lower barrier to entry. And for anyone who needs to do something more complicated, that’s what the JavaScript API is for.

But Pete LePage asked:

How would you feature detect for it?

Good question. With the JavaScript API you can do feature detection—if the API isn’t supported you can either bail or provide your own implementation.

There a few different ways of extending HTML that allow you to provide a fallback for non-supporting browsers.

You could mint a new element with a content model that says “Browsers, if you do support this element, ignore everything inside the opening and closing tags.” That’s the way that the canvas element works. It’s the same for audio and video—they ignore everything inside them that isn’t a source element. So developers can provide a fallback within the opening and closing tags.

But forging a new element would be overkill for something like the Web Share API (or Geolocation). There are more subtle ways of extending HTML that I’ve already alluded to.

Making a new element is a lot of work. Making a new attribute could also be a lot of work. But making a new attribute value might hit the sweet spot. That’s why I suggested something like input type="geolocation" for the declarative version of the Geolocation API. There’s prior art here; this is how we got input types for email, url, tel, color, date, etc. The key piece of behaviour is that non-supporting browsers will treat any value they don’t understand as “text”.

I don’t think there should be input type="share". The action of sharing isn’t an input. But I do think we could find an existing HTML element with an attribute that currently accepts a list of possible values. Adding one more value to that list feels like an inexpensive move.

Here’s what I suggested:

<button type=”share” value=”title,text”>

For non-supporting browsers, it’s a regular button and needs polyfilling, no different to the situation with the JavaScript API. But if supported, no JS needed?

The type attribute of the button element currently accepts three possible values: “submit”, “reset”, or “button”. If you give it any other value, it will behave as though you gave it a type of “submit” or “button” (depending on whether it’s in a form or not) …just like an unknown type value on an input element will behave like “text”.

If a browser supports button type="share”, then when the user clicks on it, the browser can go “Right, I’m handing over to the operating system now.”

There’s still the question of how to pass data to the operating system on what gets shared. Currently the JavaScript API allows you to share any combination of URL, text, and description.

Initially I was thinking that the value attribute could be used to store this data in some kind of key/value pairing, but the more I think about it, the more I think that this aspect should remain the exclusive domain of the JavaScript API. The declarative version could grab the current URL and the value of the page’s title element and pass those along to the operating system. If you need anything more complex than that, use the JavaScript API.

So what I’m proposing is:

<button type="share">

That’s it.

But how would you test for browser support? The same way as you can currently test for supported input types. Make use of the fact that an element’s attribute value and an element’s property value (which 99% of the time are the same), will be different if the attribute value isn’t supported:

var testButton = document.createElement("button");
testButton.setAttribute("type","share");
if (testButton.type != "share") {
// polyfill
}

So that’s my modest proposal. Extend the list of possible values for the type attribute on the button element to include “share” (or something like that). In supporting browsers, it triggers a very bare-bones handover to the OS (the current URL and the current page title). In non-supporting browsers, it behaves like a button currently behaves.

Declaration

I like the robustness that comes with declarative languages. I also like the power that comes with imperative languages. Best of all, I like having the choice.

Take the video and audio elements, for example. If you want, you can embed a video or audio file into a web page using a straightforward declaration in HTML.

<audio src="..." controls><!-- fallback goes here --></audio>

Straightaway, that covers 80%-90% of use cases. But if you need to do more—like, provide your own custom controls—there’s a corresponding API that’s exposed in JavaScript. Using that API, you can do everything that you can do with the HTML element, and a whole lot more besides.

It’s a similar story with animation. CSS provides plenty of animation power, but it’s limited in the events that can trigger the animations. That’s okay. There’s a corresponding JavaScript API that gives you more power. Again, the CSS declarations cover 80%-90% of use cases, but for anyone in that 10%-20%, the web animation API is there to help.

Client-side form validation is another good example. For most us, the HTML attributes—required, type, etc.—are probably enough most of the time.

<input type="email" required />

When we need more fine-grained control, there’s a validation API available in JavaScript (yes, yes, I know that the API itself is problematic, but you get the point).

I really like this design pattern. Cover 80% of the use cases with a declarative solution in HTML, but also provide an imperative alternative in JavaScript that gives more power. HTML5 has plenty of examples of this pattern. But I feel like the history of web standards has a few missed opportunities too.

Geolocation is a good example of an unbalanced feature. If you want to use it, you must use JavaScript. There is no declarative alternative. This doesn’t exist:

<input type="geolocation" />

That’s a shame. Anyone writing a form that asks for the user’s location—in order to submit that information to a server for processing—must write some JavaScript. That’s okay, I guess, but it’s always going to be that bit more fragile and error-prone compared to markup.

(And just in case you’re thinking of the fallback—which would be for the input element to be rendered as though its type value were text—and you think it’s ludicrous to expect users with non-supporting browsers to enter latitude and longitude coordinates by hand, I direct your attention to input type="color": in non-supporting browsers, it’s rendered as input type="text" and users are expected to enter colour values by hand.)

Geolocation is an interesting use case because it only works on HTTPS. There are quite a few JavaScript APIs that quite rightly require a secure context—like service workers—but I can’t think of a single HTML element or attribute that requires HTTPS (although that will soon change if we don’t act to stop plans to create a two-tier web). But that can’t have been the thinking behind geolocation being JavaScript only; when geolocation first shipped, it was available over HTTP connections too.

Anyway, that’s just one example. Like I said, it’s not that I’m in favour of declarative solutions instead of imperative ones; I strongly favour the choice offered by providing declarative solutions as well as imperative ones.

In recent years there’s been a push to expose low-level browser features to developers. They’re inevitably exposed as JavaScript APIs. In most cases, that makes total sense. I can’t really imagine a declarative way of accessing the fetch or cache APIs, for example. But I think we should be careful that it doesn’t become the only way of exposing new browser features. I think that, wherever possible, the design pattern of exposing new features declaratively and imperatively offers the best of the both worlds—ease of use for the simple use cases, and power for the more complex use cases.

Previously, it was up to browser makers to think about these things. But now, with the advent of web components, we developers are gaining that same level of power and responsibility. So if you’re making a web component that you’re hoping other people will also use, maybe it’s worth keeping this design pattern in mind: allow authors to configure the functionality of the component using HTML attributes and JavaScript methods.

Registering service workers

In chapter two of Going Offline, I talk about registering your service worker wrapped up in some feature detection:

<script>
if (navigator.serviceWorker) {
  navigator.serviceWorker.register('/serviceworker.js');
}
</script>

But I also make reference to a declarative way of doing this that isn’t very widely supported:

<link rel="serviceworker" href="/serviceworker.js">

No need for feature detection there. Thanks to the liberal error-handling model of HTML (and CSS), browsers will just ignore what they don’t understand, which isn’t the case with JavaScript.

Alas, it looks like that nice declarative alternative isn’t going to be making its way into browsers anytime soon. It has been removed from the HTML spec. That’s a shame. I have a preference for declarative solutions where possible—they’re certainly easier to teach. But in this case, the JavaScript alternative isn’t too onerous.

So if you’re reading Going Offline, when you get to the bit about someday using the rel value, you can cast a wistful gaze into the distance, or shed a tiny tear for what might have been …and then put it out of your mind and carry on reading.