the-nexus/app.js

import * as THREE from 'three';
import { OrbitControls } from 'three/addons/controls/OrbitControls.js';
import { EffectComposer } from 'three/addons/postprocessing/EffectComposer.js';
import { RenderPass } from 'three/addons/postprocessing/RenderPass.js';
import { BokehPass } from 'three/addons/postprocessing/BokehPass.js';

// === COLOR PALETTE ===
const NEXUS = {
  colors: {
    bg: 0x000008,
    starCore: 0xffffff,
    starDim: 0x8899cc,
    constellationLine: 0x334488,
    constellationFade: 0x112244,
    accent: 0x4488ff,
  }
};

// === SCENE SETUP ===
const scene = new THREE.Scene();
scene.background = new THREE.Color(NEXUS.colors.bg);

const camera = new THREE.PerspectiveCamera(75, window.innerWidth / window.innerHeight, 0.1, 2000);
camera.position.set(0, 6, 11);

// === LIGHTING ===
// Required for MeshStandardMaterial / MeshPhysicalMaterial used on the platform.
const ambientLight = new THREE.AmbientLight(0x0a1428, 1.4);
scene.add(ambientLight);

const overheadLight = new THREE.PointLight(0x8899bb, 0.6, 60);
overheadLight.position.set(0, 25, 0);
scene.add(overheadLight);

const renderer = new THREE.WebGLRenderer({ antialias: true });
renderer.setPixelRatio(window.devicePixelRatio);
renderer.setSize(window.innerWidth, window.innerHeight);
document.body.appendChild(renderer.domElement);

// === STAR FIELD ===
const STAR_COUNT = 800;
const STAR_SPREAD = 400;
const CONSTELLATION_DISTANCE = 30; // max distance to draw a line between stars

const starPositions = [];
const starGeo = new THREE.BufferGeometry();
const posArray = new Float32Array(STAR_COUNT * 3);
const sizeArray = new Float32Array(STAR_COUNT);

for (let i = 0; i < STAR_COUNT; i++) {
  const x = (Math.random() - 0.5) * STAR_SPREAD;
  const y = (Math.random() - 0.5) * STAR_SPREAD;
  const z = (Math.random() - 0.5) * STAR_SPREAD;
  posArray[i * 3] = x;
  posArray[i * 3 + 1] = y;
  posArray[i * 3 + 2] = z;
  sizeArray[i] = Math.random() * 2.5 + 0.5;
  starPositions.push(new THREE.Vector3(x, y, z));
}

starGeo.setAttribute('position', new THREE.BufferAttribute(posArray, 3));
starGeo.setAttribute('size', new THREE.BufferAttribute(sizeArray, 1));

const starMaterial = new THREE.PointsMaterial({
  color: NEXUS.colors.starCore,
  size: 0.6,
  sizeAttenuation: true,
  transparent: true,
  opacity: 0.9,
});

const stars = new THREE.Points(starGeo, starMaterial);
scene.add(stars);

// === CONSTELLATION LINES ===
// Connect nearby stars with faint lines, limited to avoid clutter
/**
 * Builds constellation line segments connecting nearby stars.
 * @returns {THREE.LineSegments}
 */
function buildConstellationLines() {
  const linePositions = [];
  const MAX_CONNECTIONS_PER_STAR = 3;
  const connectionCount = new Array(STAR_COUNT).fill(0);

  for (let i = 0; i < STAR_COUNT; i++) {
    if (connectionCount[i] >= MAX_CONNECTIONS_PER_STAR) continue;

    // Find nearest neighbors
    const neighbors = [];
    for (let j = i + 1; j < STAR_COUNT; j++) {
      if (connectionCount[j] >= MAX_CONNECTIONS_PER_STAR) continue;
      const dist = starPositions[i].distanceTo(starPositions[j]);
      if (dist < CONSTELLATION_DISTANCE) {
        neighbors.push({ j, dist });
      }
    }

    // Sort by distance and connect closest ones
    neighbors.sort((/** @type {{j: number, dist: number}} */ a, /** @type {{j: number, dist: number}} */ b) => a.dist - b.dist);
    const toConnect = neighbors.slice(0, MAX_CONNECTIONS_PER_STAR - connectionCount[i]);

    for (const { j } of toConnect) {
      linePositions.push(
        starPositions[i].x, starPositions[i].y, starPositions[i].z,
        starPositions[j].x, starPositions[j].y, starPositions[j].z
      );
      connectionCount[i]++;
      connectionCount[j]++;
    }
  }

  const lineGeo = new THREE.BufferGeometry();
  lineGeo.setAttribute('position', new THREE.BufferAttribute(new Float32Array(linePositions), 3));

  const lineMat = new THREE.LineBasicMaterial({
    color: NEXUS.colors.constellationLine,
    transparent: true,
    opacity: 0.18,
  });

  return new THREE.LineSegments(lineGeo, lineMat);
}

const constellationLines = buildConstellationLines();
scene.add(constellationLines);

// === GLASS PLATFORM ===
// Central floating platform with transparent glass-floor sections revealing the void (star field) below.

const glassPlatformGroup = new THREE.Group();

// Dark metallic frame material
const platformFrameMat = new THREE.MeshStandardMaterial({
  color: 0x0a1828,
  metalness: 0.9,
  roughness: 0.1,
  emissive: new THREE.Color(NEXUS.colors.accent).multiplyScalar(0.06),
});

// Outer solid rim (flat ring)
const platformRimGeo = new THREE.RingGeometry(4.7, 5.3, 64);
const platformRim = new THREE.Mesh(platformRimGeo, platformFrameMat);
platformRim.rotation.x = -Math.PI / 2;
glassPlatformGroup.add(platformRim);

// Raised border torus for visible 3-D thickness
const borderTorusGeo = new THREE.TorusGeometry(5.0, 0.1, 6, 64);
const borderTorus = new THREE.Mesh(borderTorusGeo, platformFrameMat);
borderTorus.rotation.x = Math.PI / 2;
glassPlatformGroup.add(borderTorus);

// Glass tile material — highly transmissive to reveal the void below
const glassTileMat = new THREE.MeshPhysicalMaterial({
  color: new THREE.Color(NEXUS.colors.accent),
  transparent: true,
  opacity: 0.09,
  roughness: 0.0,
  metalness: 0.0,
  transmission: 0.92,
  thickness: 0.06,
  side: THREE.DoubleSide,
  depthWrite: false,
});

// Edge glow — bright accent outline on each tile
const glassEdgeBaseMat = new THREE.LineBasicMaterial({
  color: NEXUS.colors.accent,
  transparent: true,
  opacity: 0.55,
});

const GLASS_TILE_SIZE = 0.85;
const GLASS_TILE_GAP = 0.14;
const GLASS_TILE_STEP = GLASS_TILE_SIZE + GLASS_TILE_GAP;
const GLASS_RADIUS = 4.55;

const tileGeo = new THREE.PlaneGeometry(GLASS_TILE_SIZE, GLASS_TILE_SIZE);
const tileEdgeGeo = new THREE.EdgesGeometry(tileGeo);

/** @type {Array<{mat: THREE.LineBasicMaterial, distFromCenter: number}>} */
const glassEdgeMaterials = [];

for (let row = -5; row <= 5; row++) {
  for (let col = -5; col <= 5; col++) {
    const x = col * GLASS_TILE_STEP;
    const z = row * GLASS_TILE_STEP;
    const distFromCenter = Math.sqrt(x * x + z * z);
    if (distFromCenter > GLASS_RADIUS) continue;

    // Transparent glass tile
    const tile = new THREE.Mesh(tileGeo, glassTileMat.clone());
    tile.rotation.x = -Math.PI / 2;
    tile.position.set(x, 0, z);
    glassPlatformGroup.add(tile);

    // Glowing edge lines
    const mat = glassEdgeBaseMat.clone();
    const edges = new THREE.LineSegments(tileEdgeGeo, mat);
    edges.rotation.x = -Math.PI / 2;
    edges.position.set(x, 0.002, z);
    glassPlatformGroup.add(edges);
    glassEdgeMaterials.push({ mat, distFromCenter });
  }
}

// Void shimmer — faint point light below the glass, emphasising the infinite depth
const voidLight = new THREE.PointLight(NEXUS.colors.accent, 0.5, 14);
voidLight.position.set(0, -3.5, 0);
glassPlatformGroup.add(voidLight);

scene.add(glassPlatformGroup);

// === MOUSE-DRIVEN ROTATION ===
let mouseX = 0;
let mouseY = 0;
let targetRotX = 0;
let targetRotY = 0;

document.addEventListener('mousemove', (/** @type {MouseEvent} */ e) => {
  mouseX = (e.clientX / window.innerWidth - 0.5) * 2;
  mouseY = (e.clientY / window.innerHeight - 0.5) * 2;
});

// === OVERVIEW MODE (Tab — bird's-eye view of the whole Nexus) ===
let overviewMode = false;
let overviewT = 0; // 0 = normal view, 1 = overview

const NORMAL_CAM = new THREE.Vector3(0, 6, 11);
const OVERVIEW_CAM = new THREE.Vector3(0, 200, 0.1); // overhead; tiny Z offset avoids gimbal lock

const overviewIndicator = document.getElementById('overview-indicator');

document.addEventListener('keydown', (e) => {
  if (e.key === 'Tab') {
    e.preventDefault();
    overviewMode = !overviewMode;
    if (overviewMode) {
      overviewIndicator.classList.add('visible');
    } else {
      overviewIndicator.classList.remove('visible');
    }
  }
});

// === PHOTO MODE ===
let photoMode = false;

// Post-processing composer for depth of field
const composer = new EffectComposer(renderer);
composer.addPass(new RenderPass(scene, camera));

const bokehPass = new BokehPass(scene, camera, {
  focus: 5.0,
  aperture: 0.0003,
  maxblur: 0.008,
});
bokehPass.enabled = false;
composer.addPass(bokehPass);

// Orbit controls for free camera movement in photo mode
const orbitControls = new OrbitControls(camera, renderer.domElement);
orbitControls.enableDamping = true;
orbitControls.dampingFactor = 0.05;
orbitControls.enabled = false;

const photoIndicator = document.getElementById('photo-indicator');
const photoFocusDisplay = document.getElementById('photo-focus');

/**
 * Updates the photo mode focus distance display.
 */
function updateFocusDisplay() {
  if (photoFocusDisplay) {
    photoFocusDisplay.textContent = bokehPass.uniforms['focus'].value.toFixed(1);
  }
}

document.addEventListener('keydown', (e) => {
  if (e.key === 'p' || e.key === 'P') {
    photoMode = !photoMode;
    document.body.classList.toggle('photo-mode', photoMode);
    bokehPass.enabled = photoMode;
    orbitControls.enabled = photoMode;
    if (photoIndicator) {
      photoIndicator.classList.toggle('visible', photoMode);
    }
    if (photoMode) {
      // Sync orbit target to current look-at
      orbitControls.target.set(0, 0, 0);
      orbitControls.update();
      updateFocusDisplay();
    }
  }

  // Adjust focus with [ ] while in photo mode
  if (photoMode) {
    const focusStep = 0.5;
    if (e.key === '[') {
      bokehPass.uniforms['focus'].value = Math.max(0.5, bokehPass.uniforms['focus'].value - focusStep);
      updateFocusDisplay();
    } else if (e.key === ']') {
      bokehPass.uniforms['focus'].value = Math.min(200, bokehPass.uniforms['focus'].value + focusStep);
      updateFocusDisplay();
    }
  }
});

// === RESIZE HANDLER ===
window.addEventListener('resize', () => {
  camera.aspect = window.innerWidth / window.innerHeight;
  camera.updateProjectionMatrix();
  renderer.setSize(window.innerWidth, window.innerHeight);
  composer.setSize(window.innerWidth, window.innerHeight);
});

// === ANIMATION LOOP ===
const clock = new THREE.Clock();

/**
 * Main animation loop — called each frame via requestAnimationFrame.
 * @returns {void}
 */
function animate() {
  requestAnimationFrame(animate);
  const elapsed = clock.getElapsedTime();

  // Smooth camera transition for overview mode
  const targetT = overviewMode ? 1 : 0;
  overviewT += (targetT - overviewT) * 0.04;
  camera.position.lerpVectors(NORMAL_CAM, OVERVIEW_CAM, overviewT);
  camera.lookAt(0, 0, 0);

  // Slow auto-rotation — suppressed during overview and photo mode
  const rotationScale = photoMode ? 0 : (1 - overviewT);
  targetRotX += (mouseY * 0.3 - targetRotX) * 0.02;
  targetRotY += (mouseX * 0.3 - targetRotY) * 0.02;

  stars.rotation.x = (targetRotX + elapsed * 0.01) * rotationScale;
  stars.rotation.y = (targetRotY + elapsed * 0.015) * rotationScale;

  constellationLines.rotation.x = stars.rotation.x;
  constellationLines.rotation.y = stars.rotation.y;

  // Subtle pulse on constellation opacity
  constellationLines.material.opacity = 0.12 + Math.sin(elapsed * 0.5) * 0.06;

  // Glass platform — ripple edge glow outward from centre
  for (const { mat, distFromCenter } of glassEdgeMaterials) {
    const phase = elapsed * 1.1 - distFromCenter * 0.18;
    mat.opacity = 0.25 + Math.sin(phase) * 0.22;
  }
  // Pulse the void light below
  voidLight.intensity = 0.35 + Math.sin(elapsed * 1.4) * 0.2;

  if (photoMode) {
    orbitControls.update();
    composer.render();
  } else {
    renderer.render(scene, camera);
  }
}

animate();

// === DEBUG MODE ===
let debugMode = false;

document.getElementById('debug-toggle').addEventListener('click', () => {
  debugMode = !debugMode;
  document.getElementById('debug-toggle').style.backgroundColor = debugMode
    ? 'var(--color-text-muted)'
    : 'var(--color-secondary)';
  console.log(`Debug mode ${debugMode ? 'enabled' : 'disabled'}`);

  if (debugMode) {
    // Example: Visualize all collision boxes and light sources
    // Replace with actual logic when available
    document.querySelectorAll('.collision-box').forEach((/** @type {HTMLElement} */ el) => el.style.outline = '2px solid red');
    document.querySelectorAll('.light-source').forEach((/** @type {HTMLElement} */ el) => el.style.outline = '2px dashed yellow');
  } else {
    document.querySelectorAll('.collision-box, .light-source').forEach((/** @type {HTMLElement} */ el) => {
      el.style.outline = 'none';
    });
  }
});

// === WEBSOCKET CLIENT ===
import { wsClient } from './ws-client.js';

wsClient.connect();

window.addEventListener('player-joined', (/** @type {CustomEvent} */ event) => {
  console.log('Player joined:', event.detail);
});

window.addEventListener('player-left', (/** @type {CustomEvent} */ event) => {
  console.log('Player left:', event.detail);
});

window.addEventListener('chat-message', (/** @type {CustomEvent} */ event) => {
  console.log('Chat message:', event.detail);
});

window.addEventListener('beforeunload', () => {
  wsClient.disconnect();
});