Event-driven DOM programming in a new style
- Supports event-driven style of frontend programming in a new way.
- Supports event delegation and outside events out of the box.
- Lightweight library. 1.25 kiB gzipped. No dependencies. No build steps.
- Uses plain JavaScript and plain HTML, requires No special syntax.
- TypeScript friendly.
Virtual DOM frameworks are good for many use cases, but sometimes they are overkill for the use cases where you only need a little bit of event handlers and dom modifications.
This capsule
library explores the new way of simple event-driven DOM
programming without virtual dom.
- Local query is good. Global query is bad.
- Define behaviors based on HTML classes.
- Use pubsub when making remote effect.
When people use jQuery, they often do:
$(".some-class").each(function () {
$(this).on("some-event", () => {
$(".some-target").each(function () {
// some effects on this element
});
});
});
This is very common pattern, and this is very bad.
The above code can been seen as a behavior of .some-class
elements, and they
use global query $(".some-target")
. Because they use global query here, they
depend on the entire DOM tree of the page. If the page change anything in it,
the behavior of the above code can potentially be changed.
This is so unpredictable because any change in the page can affect the behavior of the above class. You can predict what happens with the above code only when you understand every details of the entire application, and that's often impossible when the application is large size, and multiple people working on that app.
So how to fix this? We recommend you should use local queries.
Let's see this example:
$(".some-class").each(function () {
$(this).on("some-event", () => {
$(this).find(".some-target").each(function () {
// some effects on this element
});
});
});
The difference is $(this).find(".some-target")
part. This selects the elements
only under each .some-class
element. So this code only depends on the elements
inside it, which means there is no global dependencies here.
capsule
enforces this pattern by providing query
function to event handlers
which only finds elements under the given element.
const { on } = component("some-class");
on.click = ({ query }) => {
query(".some-target").textContent = "clicked";
};
Here query
is the alias of el.querySelector
and it finds .some-target
only
under it. So the dependency is local here.
From our observation, skilled jQuery developers always define DOM behaviors based on HTML classes.
We borrowed this pattern, and capsule
allows you to define behavior only based
on HTML classes, not random combination of query selectors.
<div class="hello">John Doe</div>
const { on } = component("hello");
on.__mount__ = () => {
alert(`Hello, I'm ${el.textContext}!`); // Alerts "Hello, I'm John Doe!"
};
We generally recommend using only local queries, but how to make effects to the remote elements?
We reommend using pubsub pattern here. By using this pattern, you can decouple those affecting and affected elements. If you decouple those elements, you can test those components independently by using events as I/O of those components.
capsule
library provides pub
and sub
APIs for encouraging this pattern.
const EVENT = "my-event";
{
const { on } = component("publisher");
on.click = ({ pub }) => {
pub(EVENT);
};
}
{
const { on, sub } = component("subscriber");
sub(EVENT);
on[EVENT] = () => {
alert(`Got ${EVENT}!`);
};
}
Note: capsule
uses DOM Event as event payload, and sub:EVENT
HTML class as
registration to the event. When pub(EVENT)
is called the CustomEvent of
EVENT
type are dispatched to the elements which have sub:EVENT
class.
TodoMVC implementation is also available here.
See the live demos.
Vanilla js (ES Module):
<script type="module">
import { component } from "https://deno.land/x/capsule@v0.6.1/dist.min.js";
// ... your code ...
</script>
Vanilla js (Legacy script tag):
<script src="https://deno.land/x/capsule@v0.6.1/loader.js"></script>
<script>
capsuleLoader.then((capsule) => {
const { component } = capsule;
// ... your code ...
});
</script>
Deno:
import { component } from "https://deno.land/x/capsule@v0.6.1/mod.ts";
Via npm:
npm install @kt3k/capsule
and
import { component } from "@kt3k/capsule";
Mirrors input value of <input>
element to another dom.
import { component } from "https://deno.land/x/capsule@v0.6.1/dist.min.js";
const { on } = component("mirroring");
on.input = ({ query }) => {
query(".src").textContent = query(".dest").value;
};
Pubsub.
import { component } from "https://deno.land/x/capsule@v0.6.1/dist.min.js";
const EVENT = "my-event";
{
const { on } = component("pub-element");
on.click = ({ pub }) => {
pub(EVENT, { hello: "world!" });
};
}
{
const { on, sub } = component("sub-element");
sub(EVENT);
on[EVENT] = ({ e }) => {
console.log(e.detail.hello); // => world!
};
}
Mount hooks.
import { component } from "https://deno.land/x/capsule@v0.6.1/dist.min.js";
const { on } = component("my-component");
// __mount__ handler is called when the component mounts to the elements.
on.__mount__ = () => {
console.log("hello, I'm mounted");
};
Prevent default, stop propagation.
import { component } from "https://deno.land/x/capsule@v0.6.1/dist.min.js";
const { on } = component("my-component");
on.click = ({ e }) => {
// e is the native event object.
// You can call methods of Event object
e.stopPropagation();
e.preventDefault();
console.log("hello, I'm mounted");
};
Event delegation. You can assign handlers to on(selector).event
to use
event delegation
pattern.
import { component } from "https://deno.land/x/capsule@v0.6.1/dist.min.js";
const { on } = component("my-component");
on(".btn").click = ({ e }) => {
console.log(".btn is clicked!");
};
Outside event handler. By assigning on.outside.event
, you can handle the event
outside of the component dom.
import { component } from "https://deno.land/x/capsule@v0.6.1/dist.min.js";
const { on } = component("my-component");
on.outside.click = ({ e }) => {
console.log("The outside of my-component has been clicked!");
};
const { component, mount } from "https://deno.land/x/capsule@v0.6.1/dist.min.js";
This registers the component of the given name. This returns a ComponentResult
which has the following shape.
interface ComponentResult {
on: EventRegistryProxy;
is(name: string);
sub(type: string);
innerHTML(html: string);
}
interface EventRegistry {
[key: string]: EventHandler | {};
(selector: string): {
[key: string]: EventHandler;
};
outside: {
[key: string]: EventHandler;
};
}
You can register event handler by assigning to on.event
.
const { on } = component("my-component");
on.click = () => {
alert("clicked");
};
You can register event handler by assigning to on(selector).event
.
The actual event handler is attached to the component dom (the root of element
which this component mounts), but the handler is only triggered when the target
is inside the given selector
.
const { on } = component("my-component");
on(".btn").click = () => {
alert(".btn is clicked");
};
You can register event handler for the outside of the component dom by assigning
to on.outside.event
const { on } = component("my-component");
on.outside.click = () => {
console.log("outside of the component has been clicked!");
};
This is useful for implementing a tooltip which closes itself if the outside of it is clicked.
is(name)
sets the html class to the component dom at mount
phase.
const { is } = component("my-component");
is("my-class-name");
innerHTML(html)
sets the inner html to the component dom at mount
phase.
const { innerHTML } = component("my-component");
innerHTML("<h1>Greetings!</h1><p>Hello from my-component</p>");
sub(type)
sets the html class of the form sub:type
to the component at
mount
phase. By adding sub:type
class, the component can receive the event
from pub(type)
calls.
{
const { sub, on } = component("my-component");
sub("my-event");
on["my-event"] = () => {
alert("Got my-event");
};
}
{
const { on } = component("another-component");
on.click = ({ pub }) => {
pub("my-event");
};
}
The event handler in capsule
has the following signature. The first argument
is EventHandlerContext
, not Event
.
type EventHandler = (ctx: ComponentEventContext) => void;
interface ComponentEventContext {
e: Event;
el: Element;
pub<T = unknown>(name: string, data: T): void;
query(selector: string): Element | null;
queryAll(selector: string): NodeListOf<Element> | null;
}
e
is the native DOM Event. You can call APIs like .preventDefault()
or
.stopPropagation()
via this object.
el
is the DOM Element, which the event handler is bound to, and the event is
dispatched on.
You can optionally attach data to the event. The attached data is available via
.detail
property of CustomEvent
object.
pub(type)
dispatches the event to the remote elements which have sub:type
class. This should be used with sub(type)
calls. For example:
{
const { sub, on } = component("my-component");
sub("my-event");
on["my-event"] = () => {
alert("Got my-event");
};
}
{
const { on } = component("another-component");
on.click = ({ pub }) => {
pub("my-event");
};
}
This call dispatches new CustomEvent("my-type")
to the elements which have
sub:my-type
class, like <div class="sub:my-type"></div>
. The event doesn't
bubbles up.
This method is for communicating with the remote elements which aren't in parent-child relationship.
This function initializes the elements with the given configuration. component
call itself initializes the component of the given class name automatically when
document got ready, but if elements are added after the initial page load, you
need to call this method explicitly to initialize capsule's event handlers.
// Initializes the all components in the entire page.
mount();
// Initializes only "my-component" components in the entire page.
// You can use this when you only added "my-component" component.
mount("my-compnent");
// Initializes the all components only in `myDom` element.
// You can use this when you only added something under `myDom`.
mount(undefined, myDom);
// Initializes only "my-component" components only in `myDom` element.
// You can use this when you only added "my-component" under `myDom`.
mount("my-component", myDom);
This function unmounts the component of the given name from the element. This
removes the all event listeners of the component and also calls the
__unmount__
hooks.
const { on } = component("my-component");
on.__unmount__ = () => {
console.log("unmounting!");
};
unmount("my-component", el);
Note: It's ok to just remove the mounted elements without calling unmount
.
Such removals don't cause a problem in most cases, but if you use outside
handlers, you need to call unmount to prevent the leakage of the event handler
because outside handlers are bound to document
object.
This section describes how capsule
works in a big picture.
Let's look at the below basic example.
const { on } = component("my-component");
on.click = () => {
console.log("clicked");
};
This code is roughly translated into jQuery like the below:
$(document).read(() => {
$(".my-component").each(function () {
$this = $(this);
if (isAlreadyInitialized($this)) {
return;
}
$this.click(() => {
console.log("clicked");
});
});
});
capsule
can be seen as a syntax sugar for the above pattern (with a few more
utilities).
- capsid
capsule
is heavily inspired bycapsid
- 2022-01-13 v0.5.2 Change
el
typing. #2 - 2022-01-12 v0.5.1 Fix
__mount__
hook execution order - 2022-01-12 v0.5.0 Add tests, setup CI.
- 2022-01-11 v0.4.0 Add outside handlers.
- 2022-01-11 v0.3.0 Add
unmount
. - 2022-01-11 v0.2.0 Change delegation syntax.
MIT