💎 azoth
Install and Build
You need both the azoth
runtime and some form of the compiler to
run azoth.
Runtime Install
> npm install azoth -S
Build Install and Config
Rollup
> npm install rollup-plugin-azoth -D
And in rollup.config.js
:
import azoth from 'rollup-plugin-azoth';
export default {
entry: 'src/index.js',
format: 'iife',
plugins: [
azoth()
],
dest: 'bundle.js'
};
Compiler
The core transformation is in the compiler repo here for adapting to other build systems.
Examples
There are simple example apps here
Developer Guide
Compiled Syntax
The current developer syntax intentionally only uses valid ESNext JavaScript, making it easy to use existing IDE features. As part of your build process, parts of the source code (functions and templates) are compiled. The static html is extracted out and the remaining expression are reworked into binding JavaScript executed at runtime.
Basic Templates
azoth templates are JavaScript template literals prefixed with a _
tag, usually returned
from a function that specifies the data to be mixed into the template.
The binding semantics are very explicit and require understanding how the data is to interact with the DOM, both initially and over time.
In the simplest case of using normal JavaScript objects and values, the templates will look nearly identical to basic template literal string interpolation:
import { _ } from 'azoth';
const greeting = (name=$) => _`<span>Hello ${name}!</span>`;
Except that templates return a document fragment instead of string:
const fragment = greeting('azoth');
document.body.appendChild(fragment);
Blocks
Interpolated expressions (${ ... }
) are marked with a trailing #
to indicate
that a template or an array of templates will be returned:
function(items) {
const noItems = _`There are <em>no</em> items :(`;
const itemCount = _`There are <strong>${items.length}</strong> items`;
return _`
<h1>${ items.length ? itemCount : noItems }#</h1>
<ul>
${items.map(item => _`
<li>${item}</li>
`)}#
</ul>
`;
}
Observables
Suffix function parameters with a default value of $
, imported from the azoth
library, to mark those inputs as observables. Inside the function generally, those arguments are unchanged:
import { _, $ } from 'azoth';
import { Observable } from 'rxjs-es/Observable';
import 'rxjs-es/add/observable/of';
const greeting = (observable=$) => _`<div>${observable}</div>`;
const name = Observable.of('azoth');
const fragment = greeting(name);
document.body.appendChild(fragment);
This can be useful when passing observables through to other subtemplate functions.
Observable Bindings
Prefix the ${ ... }
with a sigil for different binding behaviors:
sigil | type |
---|
* | map |
$ | first value |
@ | subscribe |
$
First Value
The first emitted value of the observable will be used, but then the binding will be
unsubscribed:
import { _, $ } from 'azoth';
import { Observable } from 'rxjs-es/Observable';
import 'rxjs-es/add/observable/of';
const greeting = (name=$) => _`<p>Hello ${name}!</p>`;
const name = Observable.of('azoth');
const fragment = greeting(name);
document.body.appendChild(fragment);
*
Map
Bind that part of the template to the observable and change as new values are emitted:
import { _, $ } from 'azoth';
import { BehaviorSubject } from 'rxjs-es/BehaviorSubject';
const hello = (name=$) => _`<p>Hello *${name}!</p>`;
const name = new BehaviorSubject('azoth');
const fragment = hello(name);
document.body.appendChild(fragment);
name.next('Portland');
Expressions are fully supported and can include multiple observables:
const template = (x=$, y=$) => _`*${x} + *${y} = *${x + y}`;
const x = new BehaviorSubject(5);
const y = new BehaviorSubject(2);
document.body.appendChild(template(x, y));
x.next(3);
y.next(1);
Expressions maintain their scoping within the module, so outside functions and values can be used:
import moment from 'moment';
const template = (date=$) => _`<span>*${moment(date).fromNow()}</span>`;
License
MIT