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typed-dom

A value-level and type-level DOM builder.

  • 0.0.276
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  • npm
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typed-dom

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A value-level and type-level DOM builder.

Visualize DOM structures and Assist DOM access using static types.

const dom: El<"article", HTMLElement, {
  style: El<"style", HTMLStyleElement, string>;
  title: El<"h1", HTMLHeadingElement, string>;
  content: El<"ul", HTMLUListElement, readonly El<"li", HTMLLIElement, string>[]>;
}>

APIs

HTML: { [tagname]: (attrs?, children?, factory?) => El; };

Create an HTML element proxy.

  • attrs: Record<string, string | EventListener | null | undefined>
  • children: undefined | string | El[] | Record<string, El>
  • factory: () => Element
import { HTML } from 'typed-dom';

HTML.p();
HTML.p('text');
HTML.p([HTML.a()]);
HTML.p({ link: HTML.a() }]);
HTML.p({ id: 'id' });
HTML.p(() => document.createElement('p'));
HTML.p(() => document.querySelector('p'));

SVG: { [tagname]: (attrs?, children?, factory?) => El; };

Create an SVG element proxy.

  • attrs: Record<string, string | EventListener | null | undefined>
  • children: undefined | string | El[] | Record<string, El>
  • factory: () => Element
import { SVG } from 'typed-dom';

SVG.svg();

Shadow: { [tagname]: (attrs?, children?, factory?) => El; };

Create an HTML element proxy assigning the children to the own open shadow DOM.

  • attrs: Record<string, string | EventListener | null | undefined>
  • children: undefined | string | El[] | Record<string, El>
  • factory: () => Element
import { Shadow } from 'typed-dom';

Shadow.section();

API

Create APIs

All the APIs creating an element can be redefined as follows:

import { API, NS, shadow, element } from 'typed-dom';

const html = element<HTMLElementTagNameMap>(document, NS.HTML);
const svg = element<SVGElementTagNameMap>(document, NS.SVG);

const Shadow = API<ShadowHostHTMLElementTagNameMap>(html, shadow);
const HTML = API<HTMLElementTagNameMap>(html);
const SVG = API<SVGElementTagNameMap>(svg);
Extend APIs

Custom elements can be defined by extending ShadowHostHTMLElementTagNameMap, HTMLElementTagNameMap, or SVGElementTagNameMap interface.

import { Shadow, HTML } from 'typed-dom';

declare global {
  interface ShadowHostHTMLElementTagNameMap {
    'custom-tag': HTMLElement;
  }
  interface HTMLElementTagNameMap {
    'custom': HTMLElement;
  }
}

window.customElements.define('custom-tag', class extends HTMLElement { });
Shadow('custom-tag').element.outerHTML; // '<custom-tag></custom-tag>'
HTML('custom-tag').element.outerHTML; // '<custom-tag></custom-tag>'
HTML.custom().element.outerHTML; // '<custom></custom>'

However, since scoped custom elements don't inherit global custom elements you shouldn't extend the built-in interfaces such as HTMLElementTagNameMap. Instead, you should define new interfaces and new APIs to define custom elements.

import { API, shadow, html } from 'typed-dom';

interface CustomShadowHostElementTagNameMap extends ShadowHostHTMLElementTagNameMap {
  'custom-tag': HTMLElement;
}
interface CustomHTMLElementTagNameMap extends HTMLElementTagNameMap, CustomShadowHostElementTagNameMap {
  'custom': HTMLElement;
}

export const Shadow = API<CustomShadowHostElementTagNameMap>(html, shadow);
export const HTML = API<CustomHTMLElementTagNameMap>(html);

Ideally, you should define custom elements only as scoped custom elements.

import { API, NS, shadow, html as h, element } from 'typed-dom';

interface ShadowHostScopedCustomHTMLElementTagNameMap extends ShadowHostHTMLElementTagNameMap {
  'custom-tag': HTMLElement;
}
interface ScopedCustomHTMLElementTagNameMap extends HTMLElementTagNameMap, ShadowHostScopedCustomHTMLElementTagNameMap {
  'custom': HTMLElement;
}

// Note that the following code is based on the unstandardized APIs of scoped custom elements.
const registry = new CustomElementRegistry();
// This Host function creates a proxy and makes its shadow DOM in the base document (light DOM).
export const Host = API<ShadowHostHTMLElementTagNameMap>(h, el =>
  shadow(el, { mode: 'open', registry }));
// This html function creates a scoped custom element in a shadow DOM.
export const html = element<ScopedCustomHTMLElementTagNameMap>(
  shadow('body', { mode: 'open', registry }),
  NS.HTML);
// This HTML function creates a scoped custom element proxy in a shadow DOM.
export const HTML = API<ScopedCustomHTMLElementTagNameMap>(html);
// This Shadow function creates a scoped custom element proxy and makes its shadow DOM in a shadow DOM.
export const Shadow = API<ShadowHostScopedCustomHTMLElementTagNameMap>(html, shadow);

Others

  • El
  • NS
  • Attrs
  • Children
  • Factory
  • shadow
  • frag
  • html
  • svg
  • text
  • define
  • append
  • prepend
  • defrag
  • listen
  • once
  • delegate
  • bind
  • currentTarget
  • querySelector
  • querySelectorAll

Usage

Build a Typed-DOM component with styling. APIs replace the :scope selector with :host, #<id>, or .<generated-id>.

import { HTML } from 'typed-dom';

const dom = HTML.article({
  style: HTML.style(':scope { color: red; }'),
  title: HTML.h1('Title'),
  content: HTML.ul([
    HTML.li('item'),
    HTML.li('item'),
  ]),
});

Then this component has the following readable static type generated by type inference.

const dom: El<"article", HTMLElement, {
  style: El<"style", HTMLStyleElement, string>;
  title: El<"h1", HTMLHeadingElement, string>;
  content: El<"ul", HTMLUListElement, readonly El<"li", HTMLLIElement, string>[]>;
}>

// Note: El type is defined as follows.
export interface El<
  T extends string = string,
  E extends Element = Element,
  C extends El.Children = El.Children,
  > {
  readonly tag: string;
  readonly element: E;
  get children(): El.Getter<C>;
  set children(children: El.Setter<C>);
}
export namespace El {
  export type Children =
    | Children.Void
    | Children.Text
    | Children.Array
    | Children.Struct;
  export namespace Children {
    export type Void = void;
    export type Text = string;
    export type Array = readonly El[];
    export type Struct = { [field: string]: El; };
  }
  export type Getter<C extends El.Children> =
    C extends readonly unknown[] ? C :
    C;
  export type Setter<C extends El.Children> =
    C extends readonly unknown[] ? C :
    Partial<C>;
}

Using the static type, you can see the internal structure and can safely access to and manipulate it.

// Inspect
dom.element.outerHTML; // '<article class="RANDOM"><style>.RANDOM { color: red; }</style><h1>Title</h1><ul><li>item</li><li>item</li></ul></article>'
dom.children.title.element.outerHTML; // '<h1>Title</h1>'
dom.children.title.children; // 'Title'
dom.children.content.element.outerHTML; // '<ul><li>item</li><li>item</li></ul>'
dom.children.content.children[0].children; // 'item'

// Update
// - Text
dom.children.title.children = 'Text';
dom.children.title.element.outerHTML; // '<h1>Text</h1>'

// - Array
dom.children.content.children = [
  HTML.li('Array'),
];
dom.children.content.element.outerHTML; // '<ul><li>Array</li></ul>'

// - Struct
dom.children = {
  title: HTML.h1('Struct'),
};
dom.children.title.element.outerHTML; // '<h1>Struct</h1>'
dom.children.title = HTML.h1('title');
dom.children.title.element.outerHTML; // '<h1>title</h1>'

Examples

Typed-DOM supports custom elements but they are unrecommended since most of customizations can be implemented by customizing proxies or APIs instead of elements.

DOM Components

Define composable DOM components.

import { Shadow, HTML, El } from 'typed-dom';

class Component implements El {
  private readonly dom = HTML.section({
    style: HTML.style(':scope { color: red; }'),
    content: HTML.ul([
      HTML.li('item'),
    ]),
  });
  public readonly tag = this.dom.tag;
  public readonly element = this.dom.element;
  public get children() {
    return this.dom.children.content.children;
  }
  public set children(children) {
    this.dom.children.content.children = children;
  }
}

Switch to shadow DOM. Access to elemets in shadow DOM is transparent.

class ShadowComponent implements El {
  private readonly dom = Shadow.section({
    style: HTML.style(':scope { color: red; }'),
    content: HTML.ul([
      HTML.li('item'),
    ]),
  });
  public readonly tag = this.dom.tag;
  public readonly element = this.dom.element;
  public get children() {
    return this.dom.children.content.children;
  }
  public set children(children) {
    this.dom.children.content.children = children;
  }
}

Define autonomous DOM components which orient choreography, not orchestration. This coroutine supports the actor model and the supervisor/worker pattern (using spica/supervisor).

import { Shadow, HTML, El } from 'typed-dom';
import { Coroutine } from 'spica/coroutine';

class Component extends Coroutine implements El {
  constructor() {
    super(async function* (this: Component) {
      for (const child of this.children) {
        child.children = child.children.toUpperCase();
        yield;
      }
    }, { trigger: 'element', capacity: 0 });
  }
  private readonly dom = Shadow.section({
    style: HTML.style(':scope { color: red; }'),
    content: HTML.ul([
      HTML.li('item'),
    ]),
  });
  public readonly tag = this.dom.tag;
  public readonly element = this.dom.element;
  public get children() {
    return this.dom.children.content.children;
  }
  public set children(children) {
    this.dom.children.content.children = children;
  }
}

Translation

Create a custom API for translation. Typed-DOM provides mutate, connect, and disconnect events.

import { API, El, html } from 'typed-dom';

const i18n = i18next.createInstance({
  lng: 'en',
  resources: {
    en: {
      translation: {
        'Greeting': 'Hello, {{name}}.',
      },
    },
  },
});
interface TransDataMap {
  'Greeting': { name: string; };
}
const Trans = API<HTMLElementTagNameMap>(html);
function data
  <K extends keyof TransDataMap>
  (data: TransDataMap[K])
  : El.Factory<HTMLElementTagNameMap, K> {
  return (html, tag, _, children) =>
    html(tag, {
      onmutate: ev =>
        void i18n.init((err, t) =>
          ev.currentTarget.textContent = err
            ? '{% Failed to initialize the translator. %}'
            : t(children, data) ?? `{% Failed to translate "${children}". %}`),
    });
}

const el = Trans.span('Greeting', data({ name: 'world' }));
assert(el.children === 'Hello, world.');
assert(el.element.textContent === 'Hello, world.');

Or

function bind
  <K extends keyof TransDataMap>
  (children: K, data: TransDataMap[K])
  : El.Factory<HTMLElementTagNameMap, void> {
  return (html, tag, _, __) => {
    const el = html(tag);
    i18n.init((err, t) =>
      el.textContent = err
        ? '{% Failed to initialize the translator. %}'
        : t(children, data) ?? `{% Failed to translate "${children}". %}`);
    return el;
  };
}

const el = Trans.span(bind('Greeting', { name: 'world' }));
assert(el.children === undefined);
assert(el.element.textContent === 'Hello, world.');

Dependencies

  • unassert (in compiling source code)

Keywords

FAQs

Package last updated on 10 May 2022

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