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437 lines
12 KiB
437 lines
12 KiB
import * as THREE from 'three';
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import { FontLoader } from 'three/addons/loaders/FontLoader.js';
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import { Font } from 'three/examples/jsm/loaders/FontLoader.js';
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import { TextGeometry } from 'three/addons/geometries/TextGeometry.js';
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import { lerp, randFloat } from 'three/src/math/MathUtils.js';
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import { OrbitControls } from 'three/examples/jsm/Addons.js';
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import { depth } from 'three/examples/jsm/nodes/Nodes.js';
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class PickHelper {
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constructor() {
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this.raycaster = new THREE.Raycaster();
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this.pickedObject = null;
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this.lastObjectPicked = null;
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this.sameObjectPicked = false;
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this.initalPick = false;
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}
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pick(normalizedPosition, scene, camera, time) {
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// restore the color if there is a picked object
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if (this.pickedObject) {
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this.lastObjectPicked = this.pickedObject;
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this.sameObjectPicked = false;
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this.pickedObject = undefined;
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}
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// cast a ray through the frustum
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this.raycaster.setFromCamera(normalizedPosition, camera);
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// get the list of objects the ray intersected
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const intersectedObjects = this.raycaster.intersectObjects(scene.children);
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if (intersectedObjects.length) {
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// pick the first object. It's the closest one
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for (let i = 0; i < intersectedObjects.length; i++){
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if(intersectedObjects[i].object.geometry.type != "SphereGeometry"){
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this.pickedObject = intersectedObjects[i].object;
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if(intersectedObjects[i].object == this.lastObjectPicked)
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this.sameObjectPicked = true;
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}
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}
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if (this.sameObjectPicked)
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this.pickedObject = this.lastObjectPicked;
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}
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}
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}
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class Article {
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constructor(texture, title, filename, id){
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this.geom = new THREE.TetrahedronGeometry(1, 2);
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this.material = new THREE.MeshLambertMaterial({map: texture});
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this.mesh = new THREE.Mesh(this.geom, this.material);
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this.html = filename;
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this.name = title;
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this.id = id;
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this.hover = false;
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this.hoverScale = false;
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this.hoverLerpTime = 0;
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this.speed = randFloat(1.5, 2);
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this.rotationSpeed = randFloat(0.5, 1.5);
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this.scale = 1;
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}
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AddToScene(scene, aspect){
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this.mesh.position.x = (Math.random() - 0.5) * 8 * aspect;
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this.mesh.position.y = 8 + Math.random() * 15;
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scene.add(this.mesh);
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}
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UpdateRotation(time){
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this.mesh.rotation.x += this.rotationSpeed * time;
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this.mesh.rotation.y += this.rotationSpeed * time;
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}
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UpdatePosition(time, picker){
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this.BoundsCheck();
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this.HoverCheck(picker, time)
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if (!this.hover)
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this.mesh.position.y -= this.speed * time;
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}
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BoundsCheck(){
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if (this.mesh.position.y < -8) {
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const aspect = window.innerWidth / (window.innerHeight - 100);
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this.mesh.position.y = 8 + (Math.random() * 3);
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this.mesh.position.x = (Math.random() - 0.5) * 8 * aspect;
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this.speed = randFloat(1.5, 2)
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}
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}
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UpdateScale(multipler){
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this.mesh.scale.set(multipler, multipler, multipler);
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}
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HoverCheck(picker, time){
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const hoverIncrement = 0.01;
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const offHoverDecrement = 0.01;
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if (picker.pickedObject === this.mesh) {
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this.hover = true;
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if (this.hoverLerpTime < 1) {
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this.hoverLerpTime += hoverIncrement;
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}
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if (this.hoverLerpTime > 1) {
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this.hoverLerpTime = 1;
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}
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this.scale = lerp(this.scale, 2, this.hoverLerpTime);
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} else {
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this.hover = false;
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if (this.hoverLerpTime > 0) {
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this.hoverLerpTime -= offHoverDecrement;
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}
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if (this.hoverLerpTime < 0) {
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this.hoverLerpTime = 0;
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}
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this.scale = lerp(this.scale, 1, 1 - this.hoverLerpTime);
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}
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this.UpdateScale(this.scale);
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}
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}
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let scene, camera, renderer, cube;
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let texture, planeMat, mesh, moloch_txt;
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let lastTime = 0; // Keep track of the last frame time
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let textGeo, textWidth, textMaterial, textMesh;
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let text_Geometries = [];
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let isHovering = false;
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const pickPosition = {x: 0, y: 0};
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const pickHelper = new PickHelper();
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const object_list = []
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const object_count = 20;
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const fontLoader = new FontLoader();
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let group = new THREE.Group();
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let pastArticle;
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function init() {
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// Set to a value outside the screen range
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pickPosition.x = -100000;
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pickPosition.y = -100000;
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const loader = new THREE.TextureLoader();
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texture = loader.load('/images/website/checker.png');
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// Create a renderer and attach it to our document
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renderer = new THREE.WebGLRenderer({ antialias: true });
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renderer.shadowMap.enabled = true;
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renderer.setSize(window.innerWidth, window.innerHeight - 100);
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document.getElementById('container').appendChild(renderer.domElement);
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document.getElementById('container').style.overflowY = 'hidden';
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// Create the scene
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scene = new THREE.Scene();
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scene.background = new THREE.Color('black');
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// Camera Setup
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const aspect = window.innerWidth / (window.innerHeight - 100); // Adjust for nav height
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const frustumSize = 10;
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camera = new THREE.OrthographicCamera(
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frustumSize * aspect / -2,
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frustumSize * aspect / 2,
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frustumSize / 2,
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frustumSize / -2,
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0.1,
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5000
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);
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//const controls = new OrbitControls(camera, renderer.domElement);
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camera.position.z = 20;
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// Fetch JSON data
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fetch('../json/articles.json')
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.then(response => response.json())
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.then(jsonData => {
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for (let i = 0; i < jsonData.length; i++) {
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let temp_txt = loader.load('../images/' + jsonData[i]['image']);
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temp_txt.minFilter = THREE.NearestFilter;
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let title = jsonData[i]['name']
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let filename = jsonData[i]['filename']
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let article = new Article(temp_txt, title, filename.replace(/\.[^/.]+$/, ""), i);
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article.AddToScene(scene, aspect);
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object_list.push(article);
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}
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})
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// Plane Setup
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{
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const planeSize = 40;
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texture.wrapS = THREE.RepeatWrapping;
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texture.wrapT = THREE.RepeatWrapping;
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texture.magFilter = THREE.NearestFilter;
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texture.colorSpace = THREE.SRGBColorSpace;
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const repeats = planeSize / 1;
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texture.repeat.set(repeats, repeats);
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const planeGeo = new THREE.SphereGeometry(10);
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planeMat = new THREE.MeshPhongMaterial({
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map: texture,
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side: THREE.DoubleSide,
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});
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mesh = new THREE.Mesh(planeGeo, planeMat);
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mesh.position.z = -20
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scene.add(mesh);
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}
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// Light Setup
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{
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const color = 0xFFFFFF;
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const intensity = 3;
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const light = new THREE.DirectionalLight(color, intensity);
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light.castShadow = true;
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light.position.set(1, 1, 10);
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light.target.position.set(-0, 0, -0);
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light.shadow.camera.top = 25;
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light.shadow.camera.bottom = -25;
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light.shadow.camera.left = -25;
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light.shadow.camera.right = 25;
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light.shadow.camera.zoom = 1;
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scene.add(light);
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scene.add(light.target);
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}
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// Start with an initial timestamp
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animate(0);
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}
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function animate(time) {
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requestAnimationFrame(animate);
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// Calculate the time elapsed since the last frame
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const deltaTime = (time - lastTime) / 1000; // Convert time to seconds
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lastTime = time;
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pickHelper.pick(pickPosition, scene, camera, time);
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for (let i = 0; i < object_list.length; i++){
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object_list[i].UpdateRotation(deltaTime);
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object_list[i].UpdatePosition(deltaTime, pickHelper);
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}
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// Update the plane texture offset
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const scrollSpeed = 0.2;
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planeMat.map.offset.y += scrollSpeed * deltaTime;
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planeMat.map.offset.x += scrollSpeed / 0.75 * deltaTime;
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ChangeCursor();
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// Render the scene from the perspective of the camera
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renderer.render(scene, camera);
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}
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// Handle window resize
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window.addEventListener('resize', () => {
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const aspect = window.innerWidth / (window.innerHeight - 100);
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const frustumSize = 10;
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camera.left = -frustumSize * aspect / 2;
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camera.right = frustumSize * aspect / 2;
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camera.top = frustumSize / 2;
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camera.bottom = -frustumSize / 2;
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camera.updateProjectionMatrix();
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renderer.setPixelRatio(window.devicePixelRatio);
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renderer.setSize(window.innerWidth, window.innerHeight - 100);
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});
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function getCanvasRelativePosition(event) {
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const rect = document.querySelector('#container').getBoundingClientRect();
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return {
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x: (event.clientX - rect.left) * window.innerWidth / rect.width,
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y: (event.clientY - rect.top ) * (window.innerHeight - 100) / rect.height,
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};
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}
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function setPickPosition(event) {
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const pos = getCanvasRelativePosition(event);
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pickPosition.x = (pos.x / window.innerWidth ) * 2 - 1;
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pickPosition.y = (pos.y / ( window.innerHeight-100 ) ) * -2 + 1; // note we flip Y
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}
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function clearPickPosition() {
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// unlike the mouse which always has a position
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// if the user stops touching the screen we want
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// to stop picking. For now we just pick a value
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// unlikely to pick something
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pickPosition.x = -100000;
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pickPosition.y = -100000;
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}
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function objectClicked(event) {
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if (pickHelper.pickedObject) {
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// Find the corresponding Article object
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const pickedArticle = object_list.find(article => article.mesh === pickHelper.pickedObject);
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if (pickedArticle) {
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window.location.href = pickedArticle.html;
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}
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}
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}
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function ChangeCursor(){
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const pickedArticle = object_list.find(article => article.mesh === pickHelper.pickedObject);
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if (pickedArticle) {
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document.body.style.cursor = 'pointer';
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if (pickedArticle.name != pastArticle)
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console.log('updated!')
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UpdateText(pickedArticle.name);
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}else{
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document.body.style.cursor = 'default';
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ClearTextGeoList();
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isHovering = false
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}
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}
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function UpdateText(text) {
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MeasureText(text);
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pastArticle = text
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}
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function ClearTextGeoList() {
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scene.remove(group)
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text_Geometries = [];
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}
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// Preload font
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let cachedFont = null;
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fontLoader.load('fonts/Redaction 50_Regular.json', (font) => {
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cachedFont = font;
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});
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function MeasureText(text) {
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if (!cachedFont) {
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// Font is not loaded yet, handle appropriately (e.g., show loading indicator or retry later)
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return;
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}
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ClearTextGeoList();
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// Adjust font size based on window dimensions
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let initialFontSize = 1;
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if (window.innerWidth < 1024) {
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initialFontSize = 0.5;
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} else if (window.innerWidth < 512) {
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initialFontSize = 0.25;
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}
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const aspect = window.innerWidth / (window.innerHeight - 100); // Adjust for nav height
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const orthoWidth = 10 * aspect;
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const lines = splitTextIntoLines(text, orthoWidth, initialFontSize);
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const numLines = lines.length;
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const totalHeight = (numLines - 1) * (1.5 * initialFontSize);
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const startY = totalHeight / 2;
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for (let i = 0; i < numLines; i++) {
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const line = lines[i];
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const textGeo = createTextGeometry(line.text, line.fontSize);
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textGeo.computeBoundingBox();
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const textMaterial = new THREE.MeshNormalMaterial();
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const textMesh = new THREE.Mesh(textGeo, textMaterial);
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const centerOffsetX = (textGeo.boundingBox.max.x - textGeo.boundingBox.min.x) / 2;
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const centerOffsetY = (textGeo.boundingBox.max.y - textGeo.boundingBox.min.y) / 2;
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const centerOffsetZ = (textGeo.boundingBox.max.z - textGeo.boundingBox.min.z) / 2;
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textGeo.translate(-centerOffsetX, -centerOffsetY, -centerOffsetZ);
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textMesh.rotation.x = Math.PI / 2 * 0.05;
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textMesh.position.y = startY - (i * (1.5 * initialFontSize));
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textMesh.position.z = 5;
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text_Geometries.push(textMesh);
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}
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group = new THREE.Group();
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text_Geometries.forEach(mesh => group.add(mesh));
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scene.add(group);
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}
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function splitTextIntoLines(text, maxWidth, initialFontSize) {
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const words = text.split(" ");
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const lines = [];
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let currentLine = "";
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let currentFontSize = initialFontSize;
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for (let i = 0; i < words.length; i++) {
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const testLine = currentLine + (currentLine ? " " : "") + words[i];
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const textGeo = createTextGeometry(testLine, currentFontSize);
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textGeo.computeBoundingBox();
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const proportion = textGeo.boundingBox.max.x / maxWidth;
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if (proportion > 0.8) { // Assuming 80% width utilization threshold
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lines.push({ text: currentLine, fontSize: currentFontSize });
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currentLine = words[i];
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// Adjust fontSize based on line length if needed
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} else {
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currentLine = testLine;
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}
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}
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if (currentLine !== "") {
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lines.push({ text: currentLine, fontSize: currentFontSize });
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}
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return lines;
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}
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function createTextGeometry(text, size) {
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return new TextGeometry(text, {
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height: 2,
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depth: 1,
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font: cachedFont,
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size: size,
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curveSegments: 1
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});
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}
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window.addEventListener('mousemove', setPickPosition);
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window.addEventListener('mouseout', clearPickPosition);
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window.addEventListener('mouseleave', clearPickPosition);
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window.addEventListener('click', objectClicked)
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// Initialize the application
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init();
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