import { el } from "../../index.js"; import { S } from "../../signals.js"; const { hasOwnProperty }= Object.prototype; const store= attrsPropsToSignals([ "test" ]); /** * Compatible with `npx-wca test/components/webComponent.js` * */ export class CustomHTMLTestElement extends HTMLElement{ static get observedAttributes(){ return [ "name", "pre-name" ]; } connectedCallback(){ this.attachShadow({ mode: "open" }).append( customElementRender(this, store.toRender(this), this.render) ); } render({ name, test, preName }, host){ host(on.connected(()=> console.log(CustomHTMLTestElement))); host(on.disconnected(()=> console.log(CustomHTMLTestElement))); return el("p").append( el("#text", { textContent: name }), el("#text", { textContent: test }), el("#text", { textContent: preName }), ); } } // https://gist.github.com/WebReflection/ec9f6687842aa385477c4afca625bbf4 customElementsAssign( CustomHTMLTestElement, reflectObservedAttributes, lifecycleToEvents(false), store.connect ); customElements.define("custom-test", CustomHTMLTestElement); function customElementRender(_this, attrs, render){ const host= (...a)=> a.length ? a[0](_this) : _this; return render(attrs, host); } /** @returns {HTMLElement} */ function customElementsAssign(class_base, ...automatize){ automatize.forEach(a=> a(class_base)); } function reflectObservedAttributes(c){ for(const name of c.observedAttributes){ const name_camel= name.replace(/([a-z])-([a-z])/g, (_, l, r)=> l+r.toUpperCase()); if(hasOwnProperty.call(c.prototype, name_camel)) continue; Reflect.defineProperty(c.prototype, name_camel, { get(){ return this.getAttribute(name); }, set(value){ this.setAttribute(name, value); } }); } } function lifecycleToEvents(is_attrs){ return function(c){ wrapMethod(c.prototype, "connectedCallback", function(target, thisArg, detail){ target.apply(thisArg, detail); thisArg.dispatchEvent(new Event("dde:connected")); }); wrapMethod(c.prototype, "disconnectedCallback", function(target, thisArg, detail){ target.apply(thisArg, detail); thisArg.dispatchEvent(new Event("dde:disconnected")); }); if(is_attrs) wrapMethod(c.prototype, "attributeChangedCallback", function(target, thisArg, detail){ thisArg.dispatchEvent(new CustomEvent("dde:attribute", { detail })); target.apply(thisArg, detail); }); }; } function attrsPropsToSignals(props= []){ const store_attrs= new WeakMap(); const store_props= new WeakMap(); return { toRender(target){ const out= {}; const sattrs= get(store_attrs, target); target.constructor.observedAttributes.forEach(function(name){ const name_camel= name.replace(/([a-z])-([a-z])/g, (_, l, r)=> l+r.toUpperCase()); if(!hasOwnProperty.call(sattrs, name)) sattrs[name]= S(undefined); out[name_camel]= sattrs[name]; }); const sprops= get(store_props, target); props.forEach(p=> !hasOwnProperty.call(sprops, p) && (sprops[p]= S(undefined))); return Object.assign(out, sprops); }, connect(c){ wrapMethod(c.prototype, "attributeChangedCallback", function(target, thisArg, detail){ const [ name, _, value ]= detail; const s= get(store_attrs, thisArg); if(s[name]) s[name](value); else s[name]= S(value); target.apply(thisArg, detail); }); for(const name of props){ Reflect.defineProperty(c.prototype, name, { get(){ const s= get(store_props, this); if(s[name]) return s[name](); }, set(value){ const s= get(store_props, this); if(s[name]) s[name](value); else s[name]= S(value); } }); } } }; function get(store, t){ if(store.has(t)) return store.get(t); const s= {}; store.set(t, s); return s; } } function wrapMethod(obj, method, apply){ obj[method]= new Proxy(obj[method] || (()=> {}), { apply }); }