This is now a group of 10 libraies that simplify web frontend development in vanilla HTML, CSS and JavasSript. Deleight is an inclusive library that everyone operating on the web can benefit from.

• Frontend JavaScript developers can create apps without worrying about control, modularity or maintainance. Not only is the framework flexible, modular and compact, it also aligns with familiar semantics. Plus you have multiple declarative APIs to choose from.

• Distributed frontend teams can work freely in their favourite languages without worrying about interop. HTML experts can write pure HTML. JavaScript developers can write pure JavaScript. Designers can write pure CSS. Deleight will ensure that everything plays well together.

• Backend developers using any technology can stop worrying about frontend complexity. Deleight ships modern ES6 modules which can be loaded directly into a webpage. Because the framework is modular and compact, you only load the libraries you need. You can also compose them with your favourite backend template engine to reduce the number of files to load. Finally, we try tom make the API small and intuitive. There is not much to learn.

Apart from this brief guide and the documentation, there are also some examples which can be used to understand how the parts fit together and to develop a feel for using deleight. To play with the exmples, you can run the included server with npm start and visit http://localhost:8000/docs/examples/index.html. The demos are also hosted online here.

What follows is a brief description of the libraries and how to include them in your projects.

Reftype is the latest library in the stack. The main purpose is to relieve the burden on the JavaScript programmer to know about the markup layout and structure in a large web application. Without Reftype, we manipulate all aspects of the DOM explicitly with high-level primitives from Javascript. We may get some mileage from Actribute but the module is more abstract.

Reftype provides an alternative pattern quite similar to how Vue.JS and Angular operate. It lets you declaratively describe DOM operations using attribute directives. The major difference with Reftype is that it is more transparent, explicit and composable. It aligns with the policy of Deleight to use straight HTML, CSS and JavaScript. It is deliberately designed to be fast, lightweight and memory-efficient.

<main>
    <p t> mercury +&+ venus </p>
    <p t> mercury + or +venus</p>
    <p t>mercury + before + venus</p>
    <section t>earth</section>
    <article t class-a="color1| |color2">mars</article>
</main>

import { RefType } from 'deleight/reftype'

const refs = {
    mercury: 'Planet mercury',
    venus: 'The second planet',
    earth: 'Our planet!',
    mars: 'Nearest planetary neighbor',
    color1: 'red',
    color2: 'green'
};

const reftype = new RefType(refs, { sep: { multivalue: '+' } });
reftype.add(document.querySelector('main'));
reftype.react();                     // will apply all reactions
reftype.set({ color1: 'blue' });     // will apply specific reaction...

Actribute is a versatile library for associating element attributes with JavaScript code. In one instance it can be used as a more widely supported, flexible and powerful alternative to extending built-in HTML elements, exposing a similar API. In another, it can be used to establish conventions for manipulating the DOM. The library also has some notable enhancements including the ability to join or recurse components.

 import { Actribute, props } from 'deleight/actribute';
 // initialize:
 const fallbackProps = {
    prop1: 'Fallback', prop4: 'Last resort', 
    sig: '$2b$20$o7DWuroOjbA/4LDWIstjueW9Hi6unv4fI0xAit7UQfLw/PI8iPl1y'
 };
 const act = new Actribute();
 
 // register components:
 const comp1 = (element, attr, ...context) => element.textContent = props(attr.value, context)[0]);
 const comp2 = (element, attr) => element.style.left = attr.value;
act.register({ comp1, comp2 })

 <section c-comp1="prop1"  c-comp2="100px" >
    First section
 </section>

 // process components:
 act.process({el: document.body, ctx: [{prop1: 2, prop3: 2}, fallbackProps]});
 
 // unregister a component:
 delete act.registry.comp2;

Appliance provides another declarative API for manipulating the DOM and for structuring code in JavaScript. It can be used to attach behavior to HTML elements easily and efficiently. It is like custom elements without the DOM building aspects. Here the elements may already exist in the DOM. This can produce big gains in accessibility and flexibility as DOM can be built server-side or client-side using any technology of choice. This can also increase efficiency because all the elements can be set up in one call.

import { apply } from 'deleight/appliance'
import { mySophistry } from './my-style-manager.js'
import { myEutility } from './my-event-manager.js'

// apply used globally on all divs within the componentElement
function(componentElement) {
    apply({
        div: (...divs) => mySophistry.styles.style(...divs) || myEutility.listener.listen('click', divs,  myEutility.options)
    }, componentElement);  // componentElement defaults to document.body.
}

This provides a painless SQLesque API for manipulating the DOM. The library exports insert, set, update and remove functions for bulk manipulation of things on the DOM. It is an efficient, consistent and simple API to use. See the examples and the API docs.

import { set } from 'deleight/queryoperator'
import { range } from 'deleight/generational'

// set the text content of all selected div elements to its position in the array. We can set as many properties or attributes as we want at once.
function(componentElement) {
    const links = componentElement.querySelectorAll('a');
    const indices = [...range(links.length)]
    set(links, { textContent: indices , _href: indices.map(i => `./page/${i}.html`) });
}

This is a fun library to use if you need to build DOM with JavaScript. It includes primitives for template creation, template rendering and document tree building. There are tools for building DOM from in-page resources or dynamically loaded ones. This gives us the flexibility to choose whatever works best for a project.

import { get, template } from "deleight/apriori";
const myTemplate = template(await get("markup.html"));
function(componentElement, ...args) {
    componentElement.insertAdjacentHTML('beforeend', myTemplate(...args));
}

Styling is a crucial aspect of most pages on the web. We need to make the pages beautiful and improve the UX for visual users. CSS is easy to include globally in any page, but when localising styles with Shadow DOM, one currently has to decide between writing duplicitive declarative styles vs writing JavaScript boilerplate to manage styles efficiently.

Sophistry enables efficiently scoping of declaratively written styles to specific elements. The library provides an API which simplifies the code needed for such. It will internally create open shadow roots where necessary. it maintains a cache to avoid reloading or re-processing the same styles (unless we request). Sophistry can draw styles from anywhere.

import { Sophistry } from "deleight/sophistry";
export const mySophistry = new Sophistry();
mySophistry.import("pStyle.css");

Generational exports some useful generators to improve performance and reduce memory footprint. The range and items generators have been especially useful in the examples. They may not work in many places where an array is expected because we can only iterate them once. Thus they should be used with caution. When in doubt, use an array.

import { range, items } from "deleight/generational";
const everyTenthIn1000 = range(0, 1000, 10);
// 0, 10, 20, ...

const everyHundredthIn1000 = items(everyTenthIn1000, range(0, 100, 10));
// 0, 100, 200, ...

We are bringing with back to JavaScript with the help of Proxies. This functionality was removed from the language because of performance, code comprehension and readbility issues. Once we have an implementation without these limitations, we can benefit from the improved concision and structure in our code.

import { With, SET } from "deleight/withly";
With(document.createElement('button'))[SET]({
    textContent: 'Wow!', className: 'main'
})(btm => document.body.appendChild(btn));

OneToMany exports primitives to manipulate many objects simultaneously. There are methods for getting and setting properties and invoking object methods. It provides a potentially more extensible alternative to functions, although presently it is less performant and the usage pattern is not quite as natural.

import { One, wrap, args } from "deleight/onetomany";
const arr1 = [1, 2, 3, 4, 5];

const arr2 = [6, 7, 8, 9];
// not compulsory to have the same length

export const oneArray = new One({arr1, arr2});
oneArray.extend({arr3: [10, 11, 12]});
// you can add or remove objects later with `extend()` or `contract()`

oneArray.call( { push: 50 })
// push 50 to all the arrays

oneArray.call( { push: { [args]: [51, 52, 53, 54] } } )
// push 51-54 to all the arrays.

const wrappedOneArray = wrap(oneArray);
wrappedOneArray.push(99, 100, 101, 102, 103, 104);
// wrapping enables shorthand syntax like this.

This library provides some useful primitives for simiplifying the code that will likely be included in many simple pages where JavaScript is used to support interactivity. Most JavaScript code can only run in response to an event. Eutility exports functions for:

• composing event handlers
• creating lazy handlers whose functionality can be injected later
• promoting handler reuse with different elements
• creating fewer event handlers by taking advantage of event bubbling
• disabling event firing until a running handler completes and all their promises get resolved.
• creating handlers for specific key events, like enter.
• creating reusable handler guards to stop event handling at any point.
• etc.

import { EventListener } from 'deleight/eutility'

export const myEutility = {
    listener: new EventListener((e, runContext) => console.log({e.target, runContext}))
};

You can currently install deleight in 2 ways:

Download or clone the repository and import any libraries you need from the ./src. It contains both JavaScript and TypeScript files.

npm i deleight

Deleight will also be installable from a CDN network soon.

Depending on how you bring deleight into your app, there may be subtle differences in how to import the libraries:

import { apply } from "./deleight/src/reftype.js";
import { One } from "./deleight/src/actribute.js";
// ...

import { apply } from "deleight/reftype";
import { One } from "deleight/actribute";
// ...

If you like the concept and/or the direction of deleight, feel free to contribute to this project. We are accepting contributions in many areas. Sponsorship, issues, pull requests, benchmarks, testing, CI, examples; all are welcome. We only ask that everyone maintains a positive disposition about this and about each-other.

Thank you for contributing.

1. Complete the site (deleightjs.com).
2. Complete and add more examples.
3. Improve the documentation.
4. Fix the logo...

• Progressive Web Apps.
• Efficient navigation library.