I like React, especially its core idea of Virtual DOM - objects that represent the DOM and can be merged with it rapidly, allowing it to quickly and easily build and alter large amounts of HTML. React uses JSX tools to build low level JS.
I like Polymer, expecially its core idea of #UseThePlatform - it extends and shims web components and shadow DOM to make them easier to build modular applications. Polymer doesn't help with building lots of dynamic HTML content - dom-if
and dom-repeat
templates are useful, but painful where a lot of content can change.
React has its own component model; Polymer uses the platform's component model. It seems to make a lot of sense to use the component model that's actually built into the browser, rather than a proprietary one (even if it's good, and React's is).
Polymer components can be used (to some extent) in React JSX, but not the other way round (though you can add wrappers to achieve this), and there are a couple of conflicts. Downloading all of React (or even Preact) just to use the JSX VDOM builder is a lot of overhead.
The goal of this project is to use JSX tools (where appropriate) to build the shadow DOM in Polymer components, with minimal overhead.
<calendrical-heatmap>
has a sample version written using this.
For TypeScript *.tsx
support include builder.ts
and polymer-vdom.ts
, and set tsconfig.json
to tell tsc
to output h
when parsing JSX:
{
"compilerOptions": {
"jsx": "react",
"jsxFactory": "h"
}
}
For JSX *.jsx
support include polymer-vdom.js
, and update .babelrc
(assuming Babel 6):
{
"plugins": [
["transform-react-jsx", { "pragma":"h" }]
]
}
These are the same settings as for Preact, the the config are interchangeable.
Use the mixin WithVdom
around Polymer.Element
, HTMLElement
or whatever you want to extend.
Inside that class you can use render
to output JSX into the attached shadow DOM:
import WithVdom from './polymer-vdom.js'
class VdomTest extends WithVdom(Polymer.Element) {
static get is() { return 'vdom-test'; }
ready() {
super.ready();
super.render(<div>The time is {new Date()}</div>);
}
}
customElements.define(VdomTest.is, VdomTest);
Each time render()
is called the shadow DOM root is updated with the new JSX content, following the same rules as React for keys:
super.render(<ul>
<li key="b">B</li>
<li key="c">C</li>
</ul>);
// This will add the "a" <li> and remove the "c", rather than update two nodes
super.render(<ul>
<li key="a">A</li>
<li key="b">B</li>
</ul>);
Where this differs from React is the component model - names of component classes wll be ignored. Instead use any tags registered with customElements.define
:
// Bad
super.render(<div><VdomTest /></div>);
// Good #usetheplatform
super.render(<div><vdom-test></vdom-test></div>);
At the moment this code needs to be in a *.tsx
|*.jsx
file. Next step will be build tools to add the JSX output to a <script>
tag in and HTML import.
Events can use Preact inline (onclick
) or Polymer hyphens (on-click
).
However, web components also allow mixed case events, which means React's camelCase (onClick
) is not supported.
You can render VDOM without the JSX step:
// Using VDOM objects
super.render({
type: 'ul',
props: {
children: [
{ type: 'li', props: { key: 'a', children: 'A' } },
{ type: 'li', props: { key: 'b', children: 'B' } }
]
})
// Or function calls JSX outputs to
super.render(
h('ul', null
h('li', { key: 'a' }, 'A'),
h('li', { key: 'b' }, 'B'))
It's recommended to use TypeScript (or some other type checker) if doing this to find errors at compile time.
Implement JSX.Element
from JSX.d.ts.