//jshint esversion:8 var seed = cyrb128("813311281"); var rand = sfc32(seed[0], seed[1], seed[2], seed[3]); // var gateway = `ws://192.168.1.184/ws`; var gateway = `ws://192.168.4.1/ws`; var websocket; window.addEventListener('load', onLoad); function initWebSocket() { console.log('Trying to open a WebSocket connection...'); websocket = new WebSocket(gateway); websocket.onopen = onOpen; websocket.onclose = onClose; websocket.onmessage = onMessage; // <-- add this line } function onOpen(event) { console.log('Connection opened'); } function onClose(event) { console.log('Connection closed'); setTimeout(initWebSocket, 2000); } function onMessage(event) { console.log(event.data) console.log("--") setSeed(event.data) Reset() updateDrawObj() // TogglePause() } function onLoad(event) { initWebSocket(); } function setSeed(val) { seed = cyrb128(val + "1"); rand = sfc32(seed[0], seed[1], seed[2], seed[3]); } let c = document.getElementById("myCanvas"); let ctx = c.getContext("2d"); ctx.canvas.width = window.innerWidth; ctx.canvas.height = window.innerHeight; centerX = ctx.canvas.width / 2; centerY = ctx.canvas.height / 2; let deg_per_sec = 5; let targetFps = 60; let frameDuration = 1000 / targetFps; let rotation = 0; //was = j = angle let paused = false; render_clear(); let drawObj = null; const classMap = { PolyTwistColourWidth: PolyTwistColourWidth, FloralPhyllo: FloralPhyllo, Spiral1: Spiral1, FloralAccident: FloralAccident, FloralPhyllo_Accident: FloralPhyllo_Accident, Nodal_expanding: Nodal_expanding, Phyllotaxis:Phyllotaxis, SquareTwist_angle:SquareTwist_angle, EyePrototype:EyePrototype, CircleExpand:CircleExpand, MaryFace:MaryFace, // Add more class constructors here as needed }; function createInstance(className, args) { if (classMap.hasOwnProperty(className)) { return new classMap[className](...args); } else { throw new Error(`Unknown class name: ${className}`); } } function cyrb128(str) { let h1 = 1779033703, h2 = 3144134277, h3 = 1013904242, h4 = 2773480762; for (let i = 0, k; i < str.length; i++) { k = str.charCodeAt(i); h1 = h2 ^ Math.imul(h1 ^ k, 597399067); h2 = h3 ^ Math.imul(h2 ^ k, 2869860233); h3 = h4 ^ Math.imul(h3 ^ k, 951274213); h4 = h1 ^ Math.imul(h4 ^ k, 2716044179); } h1 = Math.imul(h3 ^ (h1 >>> 18), 597399067); h2 = Math.imul(h4 ^ (h2 >>> 22), 2869860233); h3 = Math.imul(h1 ^ (h3 >>> 17), 951274213); h4 = Math.imul(h2 ^ (h4 >>> 19), 2716044179); return [(h1 ^ h2 ^ h3 ^ h4) >>> 0, (h2 ^ h1) >>> 0, (h3 ^ h1) >>> 0, (h4 ^ h1) >>> 0]; } function sfc32(a, b, c, d) { return function () { a >>>= 0; b >>>= 0; c >>>= 0; d >>>= 0; var t = (a + b) | 0; a = b ^ b >>> 9; b = c + (c << 3) | 0; c = (c << 21 | c >>> 11); d = d + 1 | 0; t = t + d | 0; c = c + t | 0; return (t >>> 0) / 4294967296; } } function PRNGinRange(min = 0, max = 100) { // find diff let difference = max - min; // generate random number let randTmp = rand(); // multiply with difference randTmp = Math.floor(randTmp * difference); // add with min value randTmp = randTmp + min; return randTmp; } async function createShapeWithRandomProperties(inputNumber, shapeConfig) { console.log(shapeConfig) // const shapeName = Object.keys(shapeConfig)[PRNGinRange(0, Object.keys(shapeConfig).length - 1)]; const shapeName = Object.keys(shapeConfig)[PRNGinRange(0, Object.keys(shapeConfig).length - 1)]; const ShapeClass = classMap[shapeName]; const config = await fetchConfig(shapeName); const properties = {}; console.log(config) config.forEach((item, index) => { const min = item.min || 0; const max = item.max || 1; const randomValue = PRNGinRange(min, max); // console.log(PRNGinRange(1, 100)) properties[item.property] = item.type === "color" ? "#4287f5" : Math.round(randomValue); }); return new ShapeClass(...Object.values(properties)); } async function updateDrawObj() { const shapeSelector = document.getElementById("shape-selector"); const selectedShape = shapeSelector.value; const configControls = await fetchConfig(selectedShape); if (drawObj) { drawObj.remove(); // Remove the previous instance } // Extract default values from the configuration const defaultValues = configControls // .filter((item) => item.type !== "color") // Exclude color inputs .map((item) => item.defaultValue); // drawObj = createInstance(selectedShape, defaultValues); drawObj = await createShapeWithRandomProperties(813311281, await fetchConfig()); console.log(drawObj) drawObj.initialise(configControls); } updateDrawObj(); function render() { setTimeout(() => { requestAnimationFrame(() => { render_clear(); if (drawObj) { drawObj.draw(rotation); } if (!paused) { rotation += deg_per_sec / targetFps; } }); render(); }, frameDuration); } document .getElementById("shape-selector") .addEventListener("change", updateDrawObj); let toolbarShowing = true; document.addEventListener("keydown", toggleSettings); function manualToggleSettings() { console.log("hi") toolbarShowing = !toolbarShowing; let tb = document.getElementById("toolbar"); if (toolbarShowing) { tb.style.display = "flex"; } else { tb.style.display = "none"; } } manualToggleSettings()//force closed at start function toggleSettings(e) { if (e.key == "p") { toolbarShowing = !toolbarShowing; } if (e.code === "Space") { paused = !paused; } let tb = document.getElementById("toolbar"); if (toolbarShowing) { tb.style.display = "flex"; } else { tb.style.display = "none"; } } function TogglePause() { let pb = document.getElementById("pauseButton"); paused = !paused; if (paused) { pb.textContent = "Play"; } else { pb.textContent = "Pause"; } } function Reset() { rotation = 0; //was = j = angle currentFrame = 0; } function ForwardFrame() { rotation += deg_per_sec / fps; // was = j = innerRotation, now = rotation currentFrame += 1; // was = i } function BackwardFrame() { rotation -= deg_per_sec / fps; // was = j = innerRotation, now = rotation currentFrame -= 1; // was = i } function ChangeDegPerSec(newValue) { deg_per_sec = newValue; } window.onload = render;