A React Developers Guide to Writing Enhance Components
by Simon MacDonald
@macdonst@mastodon.online
on
Frequently, we are asked by React developers why patterns they have learned while writing components using JSX do not translate to writing web components. In this post, I’ll try to capture some common gotchas that developers coming from React or other JavaScript view frameworks may run into when writing plain vanilla web components. Thanks to Discord user taphill
for the inspiration on this post.
Why is there so much confusion?
In my opinion, it is because JSX is not HTML. Some folks may see that as controversial, but it isn’t. In fact, legacy React documentation explicitly states that JSX is not HTML.
JSX is not…
- HTML
- A String
- A templating language
JSX is…
- A syntax extension to JavaScript
This explains why JSX must be compiled into vanilla JavaScript before it can run in the browser.
In the immortal words of tanaradoublechocolate, “See how this looks like something you’ve seen before but isn’t?"
const element = <h1>{title}</h1>;
Without JSX, you would write this as:
const element = `<h1>${title}</h1>`;
The syntax changes are not significant, but they are enough to trip you up as you transition from writing React components to web components.
Let’s take a look at some of the other frequent gotchas that developers are likely to encounter.
Quoting Attributes
In JSX, it is customary to provide the value of an attribute without quotes:
const image = <img src={href} alt={altText} />
This is because properties in React are passed by reference, not by value. This makes a lot of sense when you think about how React handles re-renders. The child component needs to know when the parent component has changed the value of the property.
Writing the same tag using a string template in JavaScript would look like this:
const image = `<img src="${href}" alt="${altText}" />`;
We are using a string template literal to create the tag and the ${}
syntax to provide string interpolation, that is, substituting the values of href
and altText
into our string.
However, this doesn’t address why we double quote our attributes. Even the HTML specification says these quotes are optional. Well, they are optional until they aren’t. Let’s look at an example.
const href = 'https://images.pexels.com/photos/45201/kitty-cat-kitten-pet-45201.jpeg'
const altText = 'white cat'
const image = `<img src="${href}" alt="${altText}" />`
This produces the HTML
<img src="https://images.pexels.com/photos/45201/kitty-cat-kitten-pet-45201.jpeg" alt="white cat" /> \
If we had omitted the double quoting of attributes, we get
<img src=https://images.pexels.com/photos/45201/kitty-cat-kitten-pet-45201.jpeg alt=white cat /> \
Nothing would break, but your HTML would be subtly wrong. The image’s alt text would only be white
, and there would be this dangling attribute on the image tag with the name of cat
. The browser will still display the image correctly, but your alt text will be wrong.
Naming Attributes
It is well known that when you specify CSS class names in a HTML page you use the class
attribute. As well, it is commonly known that when you specify CSS class names in a JSX you use the className
attribute — but why is that? The answer refers back to the beginning of this post, JSX is not HTML, JSX is an extension of JavaScript and class
is a reserved word in JavaScript. This necessitates that when writing JSX you use className
instead, just as the JSX attribute htmlFor
is used instead of the for
attribute.
React recommends that you use camel cased attributes. Once again this is fine when you are writing JavaScript, but in HTML all attributes are lowercased. So when you are writing web components, it’s best to default to lowercase attribute names — or use kebab or snake case if you must.
Of particular concern here is that the attributeChangedCallback function will not fire for attributes with uppercase characters (because of the aforementioned parser behavior). Therefore, attributes named with multiple words should be delimited using kebab-casing or snake_casing (or not delimited at all).
case | attribute | JS access | attributeChangedCallback |
---|---|---|---|
lower | imagewidth |
attrs.imagewidth |
✅ |
kebab | image-width |
attrs['image-width'] |
✅ |
snake | image_width |
attrs.image_width |
✅ |
camel | imageWidth |
attrs.imageWidth |
❌ |
Complex Attributes
React developers are used to being able to pass objects into their components via properties. When writing HTML you are limited to using attributes — and in HTML, all attributes are strings. For example:
const person = {
id: 'user0',
firstName: 'Axol',
lastName: 'Lotl'
}
const element = <User person={person} />
function User({ person }) {
return (…);
}
Then in your User component you can access all the properties of the person
object.
However, when writing web components if you wrote:
const person = {
id: 'user0',
firstName: 'Axol',
lastName: 'Lotl'
}
const element = `<user-card person="${person}"></user-card>`
Then inside your user-card
component the value of person
would be [object Object]
. This is to be expected since, once again, all attributes are strings. So, how do we go about passing objects into web components?
If the object is relatively small, you can set multiple attributes on your component:
const element = `<user-card id="${person.id}" firstname="${person.firstName}" lastname="${person.lastName}"></user-card>`
However, if your object is very complex, you will want to fetch your data from the component. We use the store to hold complex data when writing an Enhance web component. For example:
// app/elements/user-card.mjs
export default function UserCard({ html, state }) {
const { attrs, store } = state
const { id } = attrs
const { users } = store
const user = users[id]
return html`… `
}
// app/pages/card.mjs
const element = `<user-card id="${id}"></user-card>`
Rendering Markup from Arrays
A common pattern in many apps is looping over some data to create our UI. Quite often in React apps you will see something like this:
const todoList = <ul>
{todos.map((todo) => (
<li key={todo.id}>{todo.text}</li>
))}
</ul>
When using this pattern in an Enhance app, you might automatically write the web component version of this code like this:
const todoList = `<ul>
${todos.map((todo) => (
`<li key="${todo.id}">${todo.text}</li>`
))}
</ul>`
That works, sort of. When viewing your output in the browser, you will notice a comma between each li
tag. That is because the map
function returns an array
. When you convert an array
to a string in JavaScript, it adds that comma between each item.
In order to prevent this default behavior, we use the join
method.
const todoList = `<ul>
${todos.map((todo) => (
`<li key="${todo.id}">${todo.text}</li>`
)).join('')}
</ul>`
We call the join
method in the above code with the empty string. This will produce one large string that will get inserted into the DOM. If you prefer to make your HTML source pretty, you can pass the newline character to the join
method. Don’t forget to escape the newline character properly; it should look like join('\\n')
.
Conclusion
Hopefully that clears up some of the confusion when coming from React projects to writing web components — whether or not you are using the Enhance framework or not. If you are interested in learning more about Enhance:
- Follow Axol, the Enhance Mascot on Mastodon…
- Join the Enhance Discord and share what you’ve built, or ask for help.