function asyncGeneratorStep(gen, resolve, reject, _next, _throw, key, arg) { try { var info = gen[key](arg); var value = info.value; } catch (error) { reject(error); return; } if (info.done) { resolve(value); } else { Promise.resolve(value).then(_next, _throw); } } function _async_to_generator(fn) { return function() { var self = this, args = arguments; return new Promise(function(resolve, reject) { var gen = fn.apply(self, args); function _next(value) { asyncGeneratorStep(gen, resolve, reject, _next, _throw, "next", value); } function _throw(err) { asyncGeneratorStep(gen, resolve, reject, _next, _throw, "throw", err); } _next(undefined); }); }; } function _class_call_check(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } function _defineProperties(target, props) { for(var i = 0; i < props.length; i++){ var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if ("value" in descriptor) descriptor.writable = true; Object.defineProperty(target, descriptor.key, descriptor); } } function _create_class(Constructor, protoProps, staticProps) { if (protoProps) _defineProperties(Constructor.prototype, protoProps); if (staticProps) _defineProperties(Constructor, staticProps); return Constructor; } function _define_property(obj, key, value) { if (key in obj) { Object.defineProperty(obj, key, { value: value, enumerable: true, configurable: true, writable: true }); } else { obj[key] = value; } return obj; } function _object_spread(target) { for(var i = 1; i < arguments.length; i++){ var source = arguments[i] != null ? arguments[i] : {}; var ownKeys = Object.keys(source); if (typeof Object.getOwnPropertySymbols === "function") { ownKeys = ownKeys.concat(Object.getOwnPropertySymbols(source).filter(function(sym) { return Object.getOwnPropertyDescriptor(source, sym).enumerable; })); } ownKeys.forEach(function(key) { _define_property(target, key, source[key]); }); } return target; } function _ts_generator(thisArg, body) { var f, y, t, g, _ = { label: 0, sent: function() { if (t[0] & 1) throw t[1]; return t[1]; }, trys: [], ops: [] }; return g = { next: verb(0), "throw": verb(1), "return": verb(2) }, typeof Symbol === "function" && (g[Symbol.iterator] = function() { return this; }), g; function verb(n) { return function(v) { return step([ n, v ]); }; } function step(op) { if (f) throw new TypeError("Generator is already executing."); while(_)try { if (f = 1, y && (t = op[0] & 2 ? y["return"] : op[0] ? y["throw"] || ((t = y["return"]) && t.call(y), 0) : y.next) && !(t = t.call(y, op[1])).done) return t; if (y = 0, t) op = [ op[0] & 2, t.value ]; switch(op[0]){ case 0: case 1: t = op; break; case 4: _.label++; return { value: op[1], done: false }; case 5: _.label++; y = op[1]; op = [ 0 ]; continue; case 7: op = _.ops.pop(); _.trys.pop(); continue; default: if (!(t = _.trys, t = t.length > 0 && t[t.length - 1]) && (op[0] === 6 || op[0] === 2)) { _ = 0; continue; } if (op[0] === 3 && (!t || op[1] > t[0] && op[1] < t[3])) { _.label = op[1]; break; } if (op[0] === 6 && _.label < t[1]) { _.label = t[1]; t = op; break; } if (t && _.label < t[2]) { _.label = t[2]; _.ops.push(op); break; } if (t[2]) _.ops.pop(); _.trys.pop(); continue; } op = body.call(thisArg, _); } catch (e) { op = [ 6, e ]; y = 0; } finally{ f = t = 0; } if (op[0] & 5) throw op[1]; return { value: op[0] ? op[1] : void 0, done: true }; } } import * as THREE from 'three'; import { GLTFLoader } from 'three/loaders/GLTFLoader.js'; import { HandLandmarker, FilesetResolver } from 'https://esm.sh/@mediapipe/tasks-vision@0.10.14'; import { AudioManager } from './audioManager.js'; // Import the AudioManager import { SpeechManager } from './SpeechManager.js'; // Import SpeechManager export var Game = /*#__PURE__*/ function() { "use strict"; function Game(renderDiv) { var _this = this; _class_call_check(this, Game); this.renderDiv = renderDiv; this.scene = null; this.camera = null; this.renderer = null; this.videoElement = null; this.handLandmarker = null; this.lastVideoTime = -1; this.hands = []; // Stores data about detected hands (landmarks, anchor position, line group) this.handLineMaterial = null; // Material for hand lines this.fingertipMaterialHand1 = null; // Material for first hand's fingertip circles (blue) this.fingertipMaterialHand2 = null; // Material for second hand's fingertip circles (green) this.fingertipLandmarkIndices = [ 0, 4, 8, 12, 16, 20 ]; // WRIST + TIP landmarks this.handConnections = null; // Landmark connection definitions // this.handCollisionRadius = 30; // Conceptual radius for hand collision, was 25 (sphere radius) - Not needed for template this.gameState = 'loading'; // loading, ready, tracking, error this.gameOverText = null; // Will be repurposed or simplified this.clock = new THREE.Clock(); this.audioManager = new AudioManager(); // Create an instance of AudioManager this.lastLandmarkPositions = [ [], [] ]; // Store last known smoothed positions for each hand's landmarks this.smoothingFactor = 0.4; // Alpha for exponential smoothing (0 < alpha <= 1). Smaller = more smoothing. this.loadedModels = {}; this.pandaModel = null; // Add reference for the Panda model this.animationMixer = null; // For Stan model animations this.animationClips = []; // To store all animation clips from the model this.animationActions = {}; // To store animation actions by name or index this.currentAction = null; // To keep track of the currently playing animation action this.speechManager = null; this.speechBubble = null; this.speechBubbleTimeout = null; this.isSpeechActive = false; // Track if speech recognition is active for styling this.grabbingHandIndex = -1; // -1: no hand, 0: first hand, 1: second hand grabbing this.pickedUpModel = null; // Reference to the model being dragged this.modelDragOffset = new THREE.Vector3(); // Offset between model and pinch point in 3D this.modelGrabStartDepth = 0; // To store the model's Z depth when grabbed this.interactionMode = 'drag'; // 'drag', 'rotate', 'scale', 'animate' - Default to drag this.interactionModeButtons = {}; // To store references to mode buttons this.loadedDroppedModelData = null; // To temporarily store parsed GLTF data this.interactionModeColors = { drag: { base: '#00FFFF', text: '#000000', hand: new THREE.Color('#00FFFF') }, rotate: { base: '#FF00FF', text: '#FFFFFF', hand: new THREE.Color('#FF00FF') }, scale: { base: '#FFFF00', text: '#000000', hand: new THREE.Color('#FFFF00') }, animate: { base: '#FFA500', text: '#000000', hand: new THREE.Color('#FFA500') } // Orange }; this.rotateLastHandX = null; // Stores the last hand X position for rotation calculation this.rotateSensitivity = 0.02; // Adjust for faster/slower rotation this.scaleInitialPinchDistance = null; // Stores the initial distance between two pinching hands this.scaleInitialModelScale = null; // Stores the model's scale when scaling starts this.scaleSensitivity = 0.05; // Adjust for faster/slower scaling - Increased from 0.02 to 0.05 this.grabbingPulseSpeed = 8; // Speed of the grab pulse animation this.grabbingPulseAmplitude = 0.5; // How much the scale increases (e.g., 0.5 means 50% bigger at peak) this.pulseBaseScale = 1.0; // Base scale for non-pulsing and start of pulse this.fingertipDefaultOpacity = 0.3; // Default opacity for hand landmarks (Reduced from 0.6) this.fingertipGrabOpacity = 1.0; // Opacity when hand is actively grabbing/interacting this.instructionTextElement = document.querySelector("#instruction-text"); // DOM element for instruction text this.interactionModeInstructions = { drag: "Pinch to grab and move the model", rotate: "Pinch and move hand left/right to rotate", scale: "Use two hands. Pinch with both and move hands closer/farther", animate: "Pinch and move hand up/down to cycle animations" // Updated instruction }; this.animationControlHandIndex = -1; // Index of the hand controlling animation scrolling this.animationControlInitialPinchY = null; // Initial Y position of the pinch for animation scrolling this.animationScrollThreshold = 40; // Pixels of vertical movement to trigger an animation change (Reduced from 50) // Initialize asynchronously this._init().catch(function(error) { console.error("Initialization failed:", error); _this._showError("Initialization failed. Check console."); }); } _create_class(Game, [ { key: "_init", value: function _init() { var _this = this; return _async_to_generator(function() { return _ts_generator(this, function(_state) { switch(_state.label){ case 0: _this._setupDOM(); // Sets up basic DOM, including speech bubble container _this._setupThree(); _this._setupSpeechRecognition(); // Initialize SpeechManager return [ 4, _this._loadAssets() ]; case 1: _state.sent(); // Add asset loading step return [ 4, _this._setupHandTracking() ]; case 2: _state.sent(); // This needs to complete before we can proceed // Ensure webcam is playing before starting game logic dependent on it return [ 4, _this.videoElement.play() ]; case 3: _state.sent(); _this.audioManager.resumeContext(); // Resume audio context as game starts automatically _this.speechManager.requestPermissionAndStart(); // Start speech recognition _this.clock.start(); // Start the main clock as game starts automatically window.addEventListener('resize', _this._onResize.bind(_this)); _this.gameState = 'tracking'; // Change state to tracking to start immediately _this._animate(); // Start the animation loop (it will check state) return [ 2 ]; } }); })(); } }, { key: "_setupDOM", value: function _setupDOM() { var _this = this; this.renderDiv.style.position = 'relative'; this.renderDiv.style.width = '100vw'; // Use viewport units for fullscreen this.renderDiv.style.height = '100vh'; this.renderDiv.style.overflow = 'hidden'; this.renderDiv.style.background = '#111'; // Fallback background // Start Screen Overlay and related DOM elements (title, instructions, loading text) removed. // --- End Start Screen Overlay --- this.videoElement = document.createElement('video'); this.videoElement.style.position = 'absolute'; this.videoElement.style.top = '0'; this.videoElement.style.left = '0'; this.videoElement.style.width = '100%'; this.videoElement.style.height = '100%'; this.videoElement.style.objectFit = 'cover'; this.videoElement.style.transform = 'scaleX(-1)'; // Mirror view for intuitive control this.videoElement.autoplay = true; this.videoElement.muted = true; // Mute video to avoid feedback loops if audio was captured this.videoElement.playsInline = true; this.videoElement.style.zIndex = '0'; // Ensure video is behind THREE canvas this.renderDiv.appendChild(this.videoElement); // Container for Status text (formerly Game Over) and restart hint this.gameOverContainer = document.createElement('div'); this.gameOverContainer.style.position = 'absolute'; this.gameOverContainer.style.top = '50%'; this.gameOverContainer.style.left = '50%'; this.gameOverContainer.style.transform = 'translate(-50%, -50%)'; this.gameOverContainer.style.zIndex = '10'; this.gameOverContainer.style.display = 'none'; // Hidden initially this.gameOverContainer.style.pointerEvents = 'none'; // Don't block clicks this.gameOverContainer.style.textAlign = 'center'; // Center text elements within this.gameOverContainer.style.color = 'white'; // Default color, can be changed by _showError // this.gameOverContainer.style.textShadow = '2px 2px 4px black'; // Removed for flatter look this.gameOverContainer.style.fontFamily = '"Arial", "Helvetica Neue", Helvetica, sans-serif'; // Cleaner, modern sans-serif // Main Status Text (formerly Game Over Text) this.gameOverText = document.createElement('div'); // Will be 'gameOverText' internally this.gameOverText.innerText = 'STATUS'; // Generic placeholder this.gameOverText.style.fontSize = 'clamp(36px, 10vw, 72px)'; // Responsive font size this.gameOverText.style.fontWeight = 'bold'; this.gameOverText.style.marginBottom = '10px'; // Space below main text this.gameOverContainer.appendChild(this.gameOverText); // Restart Hint Text (may or may not be shown depending on context) this.restartHintText = document.createElement('div'); this.restartHintText.innerText = '(click to restart tracking)'; this.restartHintText.style.fontSize = 'clamp(16px, 3vw, 24px)'; this.restartHintText.style.fontWeight = 'normal'; this.restartHintText.style.opacity = '0.8'; // Slightly faded this.gameOverContainer.appendChild(this.restartHintText); this.renderDiv.appendChild(this.gameOverContainer); // --- Speech Bubble --- this.speechBubble = document.createElement('div'); this.speechBubble.id = 'speech-bubble'; this.speechBubble.style.position = 'absolute'; this.speechBubble.style.top = '10px'; // Changed from 20px to 10px this.speechBubble.style.left = '50%'; this.speechBubble.style.transform = 'translateX(-50%)'; this.speechBubble.style.padding = '15px 25px'; this.speechBubble.style.backgroundColor = 'rgba(255, 255, 255, 0.9)'; this.speechBubble.style.border = '2px solid black'; // Solid black border this.speechBubble.style.borderRadius = '4px'; // Sharper corners this.speechBubble.style.boxShadow = '4px 4px 0px rgba(0,0,0,1)'; // Hard shadow this.speechBubble.style.color = '#333'; this.speechBubble.style.fontFamily = '"Arial", "Helvetica Neue", Helvetica, sans-serif'; // Consistent modern sans-serif this.speechBubble.style.fontSize = 'clamp(16px, 3vw, 22px)'; this.speechBubble.style.maxWidth = '80%'; this.speechBubble.style.textAlign = 'center'; this.speechBubble.style.zIndex = '25'; // Above most things but below modal popups if any this.speechBubble.style.opacity = '0'; // Hidden initially, fade in // Added boxShadow, border, padding, fontSize, top to transition for smooth active state changes this.speechBubble.style.transition = 'opacity 0.5s ease-in-out, transform 0.3s ease-in-out, box-shadow 0.3s ease-in-out, border 0.3s ease-in-out, padding 0.3s ease-in-out, font-size 0.3s ease-in-out, top 0.3s ease-in-out'; this.speechBubble.style.pointerEvents = 'none'; // Not interactive this.speechBubble.innerHTML = "..."; // Default text this.renderDiv.appendChild(this.speechBubble); // Animation buttons container this.animationButtonsContainer = document.createElement('div'); this.animationButtonsContainer.id = 'animation-buttons-container'; this.animationButtonsContainer.style.position = 'absolute'; this.animationButtonsContainer.style.bottom = 'auto'; // Remove bottom positioning this.animationButtonsContainer.style.top = '10px'; // Position from the top, changed from 20px this.animationButtonsContainer.style.left = '10px'; // Position from the left, changed from 20px this.animationButtonsContainer.style.transform = 'none'; // Remove centering transform this.animationButtonsContainer.style.zIndex = '30'; // Above speech bubble this.animationButtonsContainer.style.display = 'flex'; this.animationButtonsContainer.style.flexDirection = 'column'; // Arrange buttons in a column this.animationButtonsContainer.style.gap = '4px'; // Reduced gap for tighter vertical layout this.animationButtonsContainer.style.opacity = '0'; // Start fully transparent for fade-in this.animationButtonsContainer.style.transition = 'opacity 0.3s ease-in-out'; // Smooth fade transition this.animationButtonsContainer.style.display = 'none'; // Initially hidden (will be set to flex by logic) this.renderDiv.appendChild(this.animationButtonsContainer); // Interaction Mode UI Container this.interactionModeContainer = document.createElement('div'); this.interactionModeContainer.id = 'interaction-mode-container'; this.interactionModeContainer.style.position = 'absolute'; this.interactionModeContainer.style.top = '10px'; // Changed from 20px this.interactionModeContainer.style.right = '10px'; // Changed from 20px this.interactionModeContainer.style.zIndex = '30'; this.interactionModeContainer.style.display = 'flex'; this.interactionModeContainer.style.flexDirection = 'column'; this.interactionModeContainer.style.gap = '4px'; this.renderDiv.appendChild(this.interactionModeContainer); // Create interaction mode buttons [ 'Drag', 'Rotate', 'Scale', 'Animate' ].forEach(function(mode) { var button = document.createElement('button'); button.innerText = mode; button.id = "interaction-mode-".concat(mode.toLowerCase()); button.style.padding = '10px 22px'; // Increased padding button.style.fontSize = '18px'; // Increased font size further button.style.border = '2px solid black'; // Consistent black border button.style.borderRadius = '4px'; // Sharper corners button.style.cursor = 'pointer'; button.style.fontWeight = 'bold'; // Always bold button.style.transition = 'background-color 0.2s ease, color 0.2s ease, box-shadow 0.2s ease'; // Faster transition, added shadow button.style.boxShadow = '2px 2px 0px black'; // Default shadow for inactive button.addEventListener('click', function() { return _this._setInteractionMode(mode.toLowerCase()); }); _this.interactionModeContainer.appendChild(button); _this.interactionModeButtons[mode.toLowerCase()] = button; // Store button reference }); this._updateInteractionModeButtonStyles(); // Apply initial styles this._updateInstructionText(); // Set initial instruction text this._setupDragAndDrop(); // Add drag and drop listeners } }, { key: "_setupThree", value: function _setupThree() { var _this_interactionModeColors_this_interactionMode; var width = this.renderDiv.clientWidth; var height = this.renderDiv.clientHeight; this.scene = new THREE.Scene(); // Using OrthographicCamera for a 2D-like overlay effect this.camera = new THREE.OrthographicCamera(width / -2, width / 2, height / 2, height / -2, 1, 2000); // Increased far plane this.camera.position.z = 100; // Position along Z doesn't change scale in Ortho this.renderer = new THREE.WebGLRenderer({ alpha: true, antialias: true }); this.renderer.setSize(width, height); this.renderer.setPixelRatio(window.devicePixelRatio); this.renderer.domElement.style.position = 'absolute'; this.renderer.domElement.style.top = '0'; this.renderer.domElement.style.left = '0'; this.renderer.domElement.style.zIndex = '1'; // Canvas on top of video this.renderDiv.appendChild(this.renderer.domElement); var ambientLight = new THREE.AmbientLight(0xffffff, 1.5); // Increased intensity this.scene.add(ambientLight); var directionalLight = new THREE.DirectionalLight(0xffffff, 1.8); // Increased intensity directionalLight.position.set(0, 0, 100); // Pointing from behind camera this.scene.add(directionalLight); // Setup hand visualization (palm circles removed, lines will be added later) for(var i = 0; i < 2; i++){ var lineGroup = new THREE.Group(); lineGroup.visible = false; this.scene.add(lineGroup); this.hands.push({ landmarks: null, anchorPos: new THREE.Vector3(), lineGroup: lineGroup, isPinching: false, pinchPointScreen: new THREE.Vector2(), isFist: false // True if hand is detected as a fist }); } this.handLineMaterial = new THREE.LineBasicMaterial({ color: 0x00ccff, linewidth: 8 }); // Kept line material default for now var initialModeHandColor = ((_this_interactionModeColors_this_interactionMode = this.interactionModeColors[this.interactionMode]) === null || _this_interactionModeColors_this_interactionMode === void 0 ? void 0 : _this_interactionModeColors_this_interactionMode.hand) || new THREE.Color(0x00ccff); this.fingertipMaterialHand1 = new THREE.MeshBasicMaterial({ color: initialModeHandColor.clone(), side: THREE.DoubleSide, transparent: true, opacity: this.fingertipDefaultOpacity }); this.fingertipMaterialHand2 = new THREE.MeshBasicMaterial({ color: initialModeHandColor.clone(), side: THREE.DoubleSide, transparent: true, opacity: this.fingertipDefaultOpacity }); // Define connections for MediaPipe hand landmarks // See: https://developers.google.com/mediapipe/solutions/vision/hand_landmarker#hand_landmarks this.handConnections = [ // Thumb [ 0, 1 ], [ 1, 2 ], [ 2, 3 ], [ 3, 4 ], // Index finger [ 0, 5 ], [ 5, 6 ], [ 6, 7 ], [ 7, 8 ], // Middle finger [ 0, 9 ], [ 9, 10 ], [ 10, 11 ], [ 11, 12 ], // Ring finger [ 0, 13 ], [ 13, 14 ], [ 14, 15 ], [ 15, 16 ], // Pinky [ 0, 17 ], [ 17, 18 ], [ 18, 19 ], [ 19, 20 ], // Palm [ 5, 9 ], [ 9, 13 ], [ 13, 17 ] // Connect base of fingers ]; } }, { key: "_loadAssets", value: function _loadAssets() { var _this = this; return _async_to_generator(function() { var gltfLoader, error; return _ts_generator(this, function(_state) { switch(_state.label){ case 0: console.log("Loading assets..."); gltfLoader = new GLTFLoader(); // Changed from FBXLoader _state.label = 1; case 1: _state.trys.push([ 1, 3, , 4 ]); return [ 4, new Promise(function(resolve, reject) { gltfLoader.load('assets/Stan.gltf', function(gltf) { _this.pandaModel = gltf.scene; // GLTFLoader returns an object with a 'scene' property _this.animationMixer = new THREE.AnimationMixer(_this.pandaModel); _this.animationClips = gltf.animations; if (_this.animationClips && _this.animationClips.length) { _this.animationClips.forEach(function(clip, index) { var action = _this.animationMixer.clipAction(clip); var actionName = clip.name || "Animation ".concat(index + 1); _this.animationActions[actionName] = action; // Create a button for this animation var button = document.createElement('button'); button.innerText = actionName; button.style.padding = '5px 10px'; // Adjusted padding button.style.fontSize = '13px'; // Consistent font size button.style.backgroundColor = '#f0f0f0'; // Light grey default button.style.color = 'black'; button.style.border = '2px solid black'; // Black border button.style.borderRadius = '4px'; // Sharper corners button.style.cursor = 'pointer'; button.style.transition = 'background-color 0.2s ease, box-shadow 0.2s ease'; button.style.boxShadow = '2px 2px 0px black'; // Default shadow button.addEventListener('click', function() { return _this._playAnimation(actionName); }); _this.animationButtonsContainer.appendChild(button); console.log("Loaded animation and created button for: ".concat(actionName)); }); // Play the first animation by default // Try to find and play an "idle" animation by default var defaultActionName = Object.keys(_this.animationActions)[0]; // Fallback to the first animation var idleActionKey = Object.keys(_this.animationActions).find(function(name) { return name.toLowerCase().includes('idle'); }); if (idleActionKey) { defaultActionName = idleActionKey; console.log("Found idle animation: ".concat(defaultActionName)); } else if (defaultActionName) { console.log("No specific idle animation found, defaulting to first animation: ".concat(defaultActionName)); } if (defaultActionName && _this.animationActions[defaultActionName]) { _this.currentAction = _this.animationActions[defaultActionName]; _this.currentAction.play(); console.log("Playing default animation: ".concat(defaultActionName)); _this._updateButtonStyles(defaultActionName); } else { console.log("No animations found or default animation could not be played."); } } else { console.log("Stan model has no embedded animations."); } // Scale and position the model // These values might need adjustment based on the model's original size and pivot var scale = 80; // This scale might need adjustment for Stan model _this.pandaModel.scale.set(scale, scale, scale); // Position the model: X=center, Y=roughly bottom, Z=in front of hands var sceneHeight = _this.renderDiv.clientHeight; _this.pandaModel.position.set(0, sceneHeight * -0.45, -1000); // Updated Z to -1000 _this.scene.add(_this.pandaModel); console.log("Stan GLTF model loaded and added to scene."); resolve(); }, undefined, function(error) { console.error('An error occurred while loading the Stan GLTF model:', error); // Updated log reject(error); }); }) ]; case 2: _state.sent(); console.log("All specified assets loaded."); return [ 3, 4 ]; case 3: error = _state.sent(); console.error("Error loading assets:", error); _this._showError("Failed to load 3D model."); throw error; // Stop initialization case 4: return [ 2 ]; } }); })(); } }, { key: "_setupHandTracking", value: function _setupHandTracking() { var _this = this; return _async_to_generator(function() { var vision, stream, error; return _ts_generator(this, function(_state) { switch(_state.label){ case 0: _state.trys.push([ 0, 4, , 5 ]); console.log("Setting up Hand Tracking..."); return [ 4, FilesetResolver.forVisionTasks('https://cdn.jsdelivr.net/npm/@mediapipe/tasks-vision@0.10.14/wasm') ]; case 1: vision = _state.sent(); return [ 4, HandLandmarker.createFromOptions(vision, { baseOptions: { modelAssetPath: "https://storage.googleapis.com/mediapipe-models/hand_landmarker/hand_landmarker/float16/1/hand_landmarker.task", delegate: 'GPU' }, numHands: 2, runningMode: 'VIDEO' }) ]; case 2: _this.handLandmarker = _state.sent(); console.log("HandLandmarker created."); console.log("Requesting webcam access..."); return [ 4, navigator.mediaDevices.getUserMedia({ video: { facingMode: 'user', width: { ideal: 1920 }, height: { ideal: 1080 } // Request Full HD height }, audio: false }) ]; case 3: stream = _state.sent(); _this.videoElement.srcObject = stream; console.log("Webcam stream obtained."); // Wait for video metadata to load to ensure dimensions are available return [ 2, new Promise(function(resolve) { _this.videoElement.onloadedmetadata = function() { console.log("Webcam metadata loaded."); // Adjust video size slightly after metadata is loaded if needed, but CSS handles most _this.videoElement.style.width = _this.renderDiv.clientWidth + 'px'; _this.videoElement.style.height = _this.renderDiv.clientHeight + 'px'; resolve(); }; }) ]; case 4: error = _state.sent(); console.error('Error setting up Hand Tracking or Webcam:', error); _this._showError("Webcam/Hand Tracking Error: ".concat(error.message, ". Please allow camera access.")); throw error; // Re-throw to stop initialization case 5: return [ 2 ]; } }); })(); } }, { key: "_updateHands", value: function _updateHands() { var _this = this; if (!this.handLandmarker || !this.videoElement.srcObject || this.videoElement.readyState < 2 || this.videoElement.videoWidth === 0) return; // this.isAnyHandHovering = false; // Reset hover state each frame - REMOVED var videoTime = this.videoElement.currentTime; if (videoTime > this.lastVideoTime) { this.lastVideoTime = videoTime; try { var _this1, _loop = function(i) { var hand = _this1.hands[i]; if (results.landmarks && results.landmarks[i]) { var currentRawLandmarks = results.landmarks[i]; if (!_this1.lastLandmarkPositions[i] || _this1.lastLandmarkPositions[i].length !== currentRawLandmarks.length) { _this1.lastLandmarkPositions[i] = currentRawLandmarks.map(function(lm) { return _object_spread({}, lm); }); } var smoothedLandmarks = currentRawLandmarks.map(function(lm, lmIndex) { var prevLm = _this.lastLandmarkPositions[i][lmIndex]; return { x: _this.smoothingFactor * lm.x + (1 - _this.smoothingFactor) * prevLm.x, y: _this.smoothingFactor * lm.y + (1 - _this.smoothingFactor) * prevLm.y, z: _this.smoothingFactor * lm.z + (1 - _this.smoothingFactor) * prevLm.z }; }); _this1.lastLandmarkPositions[i] = smoothedLandmarks.map(function(lm) { return _object_spread({}, lm); }); // Update last positions with new smoothed ones hand.landmarks = smoothedLandmarks; var palm = smoothedLandmarks[9]; // MIDDLE_FINGER_MCP var lmOriginalX = palm.x * videoParams.videoNaturalWidth; var lmOriginalY = palm.y * videoParams.videoNaturalHeight; var normX_visible = (lmOriginalX - videoParams.offsetX) / videoParams.visibleWidth; var normY_visible = (lmOriginalY - videoParams.offsetY) / videoParams.visibleHeight; var handX = (1 - normX_visible) * canvasWidth - canvasWidth / 2; var handY = (1 - normY_visible) * canvasHeight - canvasHeight / 2; hand.anchorPos.set(handX, handY, 1); // Hover detection logic REMOVED var prevIsPinching = hand.isPinching; // Store previous pinch state // Pinch detection logic var thumbTipLm = smoothedLandmarks[4]; // THUMB_TIP landmark index var indexTipLm = smoothedLandmarks[8]; // INDEX_FINGER_TIP landmark index if (thumbTipLm && indexTipLm) { // Convert landmark coordinates to screen space for pinch detection var convertToScreenSpace = function(lm) { var originalX = lm.x * videoParams.videoNaturalWidth; var originalY = lm.y * videoParams.videoNaturalHeight; var normX_visible = (originalX - videoParams.offsetX) / videoParams.visibleWidth; var normY_visible = (originalY - videoParams.offsetY) / videoParams.visibleHeight; return { x: (1 - normX_visible) * canvasWidth - canvasWidth / 2, y: (1 - normY_visible) * canvasHeight - canvasHeight / 2 }; }; var thumbTipScreen = convertToScreenSpace(thumbTipLm); var indexTipScreen = convertToScreenSpace(indexTipLm); var distanceX = thumbTipScreen.x - indexTipScreen.x; var distanceY = thumbTipScreen.y - indexTipScreen.y; var pinchDistance = Math.sqrt(distanceX * distanceX + distanceY * distanceY); var pinchThreshold = 45; // Increased from 35. Distance in screen pixels to consider a pinch. if (pinchDistance < pinchThreshold) { hand.isPinching = true; hand.pinchPointScreen.set((thumbTipScreen.x + indexTipScreen.x) / 2, (thumbTipScreen.y + indexTipScreen.y) / 2); } else { hand.isPinching = false; } } else { hand.isPinching = false; } // Fist detection logic (simple version based on finger curl) // This is a basic fist detection. More robust methods might involve checking distances // of all fingertips to the palm or wrist. var isTipNearMCP = function(tipLandmark, mcpLandmark) { var threshold = arguments.length > 2 && arguments[2] !== void 0 ? arguments[2] : 0.1; if (!tipLandmark || !mcpLandmark) return false; // Using 3D distance, but could simplify to 2D if performance is an issue // and Z-depth isn't significantly varying for this gesture. var dx = tipLandmark.x - mcpLandmark.x; var dy = tipLandmark.y - mcpLandmark.y; // const dz = tipLandmark.z - mcpLandmark.z; // Can include Z if needed var distance = Math.sqrt(dx * dx + dy * dy /* + dz*dz */ ); return distance < threshold; }; var indexFingerTip = smoothedLandmarks[8]; var indexFingerMcp = smoothedLandmarks[5]; var middleFingerTip = smoothedLandmarks[12]; var middleFingerMcp = smoothedLandmarks[9]; var ringFingerTip = smoothedLandmarks[16]; var ringFingerMcp = smoothedLandmarks[13]; var pinkyTip = smoothedLandmarks[20]; var pinkyMcp = smoothedLandmarks[17]; // Check if at least 3 fingers are curled (tip near MCP joint) var curledFingers = 0; if (isTipNearMCP(indexFingerTip, indexFingerMcp, 0.08)) curledFingers++; if (isTipNearMCP(middleFingerTip, middleFingerMcp, 0.08)) curledFingers++; if (isTipNearMCP(ringFingerTip, ringFingerMcp, 0.08)) curledFingers++; if (isTipNearMCP(pinkyTip, pinkyMcp, 0.08)) curledFingers++; var prevIsFist = hand.isFist; hand.isFist = curledFingers >= 3; // Requires at least 3 fingers to be curled // Interaction Logic if (_this1.interactionMode === 'animate') { // Release any model grab from other modes if (_this1.grabbingHandIndex !== -1 && _this1.pickedUpModel) { // console.log(`Switched to Animate mode or model grab was active. Releasing.`); _this1.grabbingHandIndex = -1; _this1.pickedUpModel = null; // if (this.grabMarker && this.pandaModel) this.grabMarker.visible = true; // Grab marker removed // Reset other mode-specific states _this1.rotateLastHandX = null; _this1.scaleInitialPinchDistance = null; _this1.scaleInitialModelScale = null; } if (hand.isPinching) { if (!prevIsPinching && _this1.animationControlHandIndex === -1) { _this1.animationControlHandIndex = i; _this1.animationControlInitialPinchY = hand.pinchPointScreen.y; console.log("Hand ".concat(i, " started pinch for animation control at Y: ").concat(_this1.animationControlInitialPinchY)); } else if (_this1.animationControlHandIndex === i && _this1.animationControlInitialPinchY !== null) { // Pinch continues with the controlling hand var deltaY = hand.pinchPointScreen.y - _this1.animationControlInitialPinchY; if (Math.abs(deltaY) > _this1.animationScrollThreshold) { var animationNames = Object.keys(_this1.animationActions); if (animationNames.length > 0) { var currentIndex = -1; // Find the index of the currently playing animation action if (_this1.currentAction) { for(var j = 0; j < animationNames.length; j++){ if (_this1.animationActions[animationNames[j]] === _this1.currentAction) { currentIndex = j; break; } } } var nextIndex = currentIndex; if (deltaY < 0) { nextIndex = (currentIndex + 1) % animationNames.length; // Now scrolls to next console.log("Scrolling animation UP (to next)"); } else { nextIndex = (currentIndex - 1 + animationNames.length) % animationNames.length; // Now scrolls to previous console.log("Scrolling animation DOWN (to previous)"); } if (nextIndex !== currentIndex) { _this1._playAnimation(animationNames[nextIndex]); } } // Reset initial Y to require another full threshold movement _this1.animationControlInitialPinchY = hand.pinchPointScreen.y; } } } else { if (prevIsPinching && _this1.animationControlHandIndex === i) { console.log("Hand ".concat(i, " ended pinch for animation control.")); _this1.animationControlHandIndex = -1; _this1.animationControlInitialPinchY = null; } } } else if (_this1.interactionMode === 'drag') { if (hand.isPinching) { if (!prevIsPinching && _this1.grabbingHandIndex === -1 && _this1.pandaModel) { // REMOVED: Bounding box check - drag can be initiated from anywhere if not scaling _this1.grabbingHandIndex = i; _this1.pickedUpModel = _this1.pandaModel; // Convert 2D screen pinch point to 3D world point on a plane // The plane is at the model's current Z depth _this1.modelGrabStartDepth = _this1.pickedUpModel.position.z; // Store initial depth var pinchX = hand.pinchPointScreen.x; var pinchY = hand.pinchPointScreen.y; // Convert 2D screen pinch point (origin center) to NDC (Normalized Device Coords, -1 to 1) var ndcX = pinchX / (_this1.renderDiv.clientWidth / 2); var ndcY = pinchY / (_this1.renderDiv.clientHeight / 2); var pinchPoint3DWorld = new THREE.Vector3(ndcX, ndcY, 0.5); // Start with a neutral NDC Z pinchPoint3DWorld.unproject(_this1.camera); pinchPoint3DWorld.z = _this1.modelGrabStartDepth; // Force Z to the grab depth console.log("Grab screen: (".concat(pinchX.toFixed(2), ", ").concat(pinchY.toFixed(2), "), NDC: (").concat(ndcX.toFixed(2), ", ").concat(ndcY.toFixed(2), ")")); console.log("Grab 3D World (pre-offset): ".concat(pinchPoint3DWorld.x.toFixed(2), ", ").concat(pinchPoint3DWorld.y.toFixed(2), ", ").concat(pinchPoint3DWorld.z.toFixed(2))); _this1.modelDragOffset.subVectors(_this1.pickedUpModel.position, pinchPoint3DWorld); console.log("Hand ".concat(i, " GRABBED model for DRAG at depth ").concat(_this1.modelGrabStartDepth, ". Offset:"), _this1.modelDragOffset.x.toFixed(2), _this1.modelDragOffset.y.toFixed(2), _this1.modelDragOffset.z.toFixed(2)); } else if (_this1.grabbingHandIndex === i && _this1.pickedUpModel) { // Update model position based on pinch var currentPinchX = hand.pinchPointScreen.x; var currentPinchY = hand.pinchPointScreen.y; var currentNdcX = currentPinchX / (_this1.renderDiv.clientWidth / 2); var currentNdcY = currentPinchY / (_this1.renderDiv.clientHeight / 2); var newPinchPoint3DWorld = new THREE.Vector3(currentNdcX, currentNdcY, 0.5); newPinchPoint3DWorld.unproject(_this1.camera); newPinchPoint3DWorld.z = _this1.modelGrabStartDepth; // Force Z to the original grab depth plane _this1.pickedUpModel.position.addVectors(newPinchPoint3DWorld, _this1.modelDragOffset); var minZ = -200; var maxZ = 50; _this1.pickedUpModel.position.z = Math.max(minZ, Math.min(maxZ, _this1.pickedUpModel.position.z)); } } else { if (prevIsPinching && _this1.grabbingHandIndex === i) { console.log("Hand ".concat(i, " RELEASED Stan model (Drag mode) at position:"), _this1.pickedUpModel.position); _this1.grabbingHandIndex = -1; _this1.pickedUpModel = null; // if (this.grabMarker && this.pandaModel) this.grabMarker.visible = true; // Show marker when released - Grab marker removed } } } else if (_this1.interactionMode === 'rotate') { if (hand.isPinching) { if (!prevIsPinching && _this1.grabbingHandIndex === -1 && _this1.pandaModel) { // REMOVED: Bounding box check - rotate can be initiated from anywhere if not scaling _this1.grabbingHandIndex = i; _this1.pickedUpModel = _this1.pandaModel; _this1.rotateLastHandX = hand.pinchPointScreen.x; // Store initial pinch X for delta calculation console.log("Hand ".concat(i, " INITIATED ROTATION on model via pinch from anywhere.")); } else if (_this1.grabbingHandIndex === i && _this1.pickedUpModel && _this1.rotateLastHandX !== null) { var currentHandX = hand.pinchPointScreen.x; // Use pinch point X for delta var deltaX = currentHandX - _this1.rotateLastHandX; if (_this1.pickedUpModel && Math.abs(deltaX) > 0.5) { _this1.pickedUpModel.rotation.y -= deltaX * _this1.rotateSensitivity; } _this1.rotateLastHandX = currentHandX; } } else { if (prevIsPinching && _this1.grabbingHandIndex === i) { console.log("Hand ".concat(i, " RELEASED ROTATION on model (pinch ended).")); _this1.grabbingHandIndex = -1; _this1.pickedUpModel = null; _this1.rotateLastHandX = null; // if (this.grabMarker && this.pandaModel) this.grabMarker.visible = true; // Grab marker removed } } } else if (_this1.interactionMode === 'scale') { var hand0 = _this1.hands[0]; var hand1 = _this1.hands[1]; if (hand0 && hand1 && hand0.landmarks && hand1.landmarks && hand0.isPinching && hand1.isPinching) { // Both hands are visible and pinching var dist = hand0.pinchPointScreen.distanceTo(hand1.pinchPointScreen); if (_this1.scaleInitialPinchDistance === null || _this1.scaleInitialModelScale === null) { // Start of scaling gesture _this1.scaleInitialPinchDistance = dist; _this1.scaleInitialModelScale = _this1.pandaModel.scale.clone(); // Store initial scale vector _this1.grabbingHandIndex = 0; // Mark as "grabbing" for scaling (using hand 0 as primary) _this1.pickedUpModel = _this1.pandaModel; // Indicate model is being interacted with // if(this.grabMarker) this.grabMarker.visible = false; // Grab marker removed console.log("Scaling initiated. Initial pinch dist: ".concat(dist.toFixed(2), ", Initial scale: ").concat(_this1.scaleInitialModelScale.x.toFixed(2))); } else { // Continue scaling var deltaDistance = dist - _this1.scaleInitialPinchDistance; var scaleFactorChange = deltaDistance * _this1.scaleSensitivity; var newScaleValue = _this1.scaleInitialModelScale.x + scaleFactorChange; // Clamp scale to prevent extreme sizes or inversion var minScale = 10; // Example min scale (adjust based on model's base size) var maxScale = 300; // Example max scale newScaleValue = Math.max(minScale, Math.min(maxScale, newScaleValue)); _this1.pandaModel.scale.set(newScaleValue, newScaleValue, newScaleValue); // console.log(`Scaling: Current pinch dist: ${dist.toFixed(2)}, Scale change: ${scaleFactorChange.toFixed(3)}, New scale value: ${newScaleValue.toFixed(2)}`); } } else { // One or both hands are not pinching or not visible, or scaling was active if (_this1.scaleInitialPinchDistance !== null) { console.log("Scaling gesture ended."); _this1.scaleInitialPinchDistance = null; _this1.scaleInitialModelScale = null; _this1.grabbingHandIndex = -1; _this1.pickedUpModel = null; // if(this.grabMarker && this.pandaModel) this.grabMarker.visible = true; // Grab marker removed } } } _this1._updateHandLines(i, smoothedLandmarks, videoParams, canvasWidth, canvasHeight); } else { if (hand.isPinching && _this1.grabbingHandIndex === i && _this1.interactionMode === 'drag') { console.log("Hand ".concat(i, " (which was grabbing for drag) disappeared. Releasing model.")); _this1.grabbingHandIndex = -1; _this1.pickedUpModel = null; // if (this.grabMarker && this.pandaModel) this.grabMarker.visible = true; // Grab marker removed } else if (_this1.hands[i].isPinching && _this1.grabbingHandIndex === i && _this1.interactionMode === 'rotate') { console.log("Hand ".concat(i, " (which was pinching for rotate) disappeared. Releasing model.")); _this1.grabbingHandIndex = -1; _this1.pickedUpModel = null; _this1.rotateLastHandX = null; // if (this.grabMarker && this.pandaModel) this.grabMarker.visible = true; // Grab marker removed } else if (_this1.interactionMode === 'scale' && _this1.scaleInitialPinchDistance !== null && (i === 0 || i === 1)) { var _this_hands_, _this_hands_1; var hand0Exists = (_this_hands_ = _this1.hands[0]) === null || _this_hands_ === void 0 ? void 0 : _this_hands_.landmarks; var hand1Exists = (_this_hands_1 = _this1.hands[1]) === null || _this_hands_1 === void 0 ? void 0 : _this_hands_1.landmarks; if (!hand0Exists || !hand1Exists) { console.log("Scaling gesture ended due to hand disappearance."); _this1.scaleInitialPinchDistance = null; _this1.scaleInitialModelScale = null; _this1.grabbingHandIndex = -1; _this1.pickedUpModel = null; // if(this.grabMarker && this.pandaModel) this.grabMarker.visible = true; // Grab marker removed } } hand.landmarks = null; hand.isPinching = false; hand.isFist = false; if (hand.lineGroup) hand.lineGroup.visible = false; } // Play interaction click sound for this hand if applicable (not for scale, handled after loop) var isThisHandActivelyInteractingForSound = false; if (_this1.interactionMode === 'drag' || _this1.interactionMode === 'rotate') { isThisHandActivelyInteractingForSound = _this1.grabbingHandIndex === i && _this1.pickedUpModel === _this1.pandaModel; } else if (_this1.interactionMode === 'animate') { isThisHandActivelyInteractingForSound = _this1.animationControlHandIndex === i; } if (hand.isPinching && isThisHandActivelyInteractingForSound && _this1.interactionMode !== 'scale') { _this1.audioManager.playInteractionClickSound(); } }; var results = this.handLandmarker.detectForVideo(this.videoElement, performance.now()); var videoParams = this._getVisibleVideoParameters(); if (!videoParams) return; var canvasWidth = this.renderDiv.clientWidth; var canvasHeight = this.renderDiv.clientHeight; for(var i = 0; i < this.hands.length; i++)_this1 = this, _loop(i); // End of hand loop // After processing both hands, if in scale mode and one hand stops pinching, explicitly stop scaling. if (this.interactionMode === 'scale' && this.scaleInitialPinchDistance !== null) { var hand0 = this.hands[0]; var hand1 = this.hands[1]; var hand0PinchingAndVisible = hand0 && hand0.landmarks && hand0.isPinching; var hand1PinchingAndVisible = hand1 && hand1.landmarks && hand1.isPinching; if (hand0PinchingAndVisible && hand1PinchingAndVisible) { // If scaling is active and both hands are pinching, play sound this.audioManager.playInteractionClickSound(); } else { // If scaling was active but one hand stopped pinching or disappeared if (this.scaleInitialPinchDistance !== null) { console.log("Scaling gesture ended (one hand stopped pinching/disappeared - post-loop check)."); this.scaleInitialPinchDistance = null; this.scaleInitialModelScale = null; this.grabbingHandIndex = -1; this.pickedUpModel = null; // if(this.grabMarker && this.pandaModel) this.grabMarker.visible = true; // Grab marker removed } } } } catch (error) { console.error("Error during hand detection:", error); } } } }, { key: "_getModelScreenBoundingBox", value: function _getModelScreenBoundingBox() { var _this = this; if (!this.pandaModel || !this.camera || !this.renderer) { return null; } // Ensure the model's world matrix is up to date this.pandaModel.updateMatrixWorld(true); var box = new THREE.Box3().setFromObject(this.pandaModel); if (box.isEmpty()) { return null; // Model might not be loaded or has no geometry } var corners = [ new THREE.Vector3(box.min.x, box.min.y, box.min.z), new THREE.Vector3(box.min.x, box.min.y, box.max.z), new THREE.Vector3(box.min.x, box.max.y, box.min.z), new THREE.Vector3(box.min.x, box.max.y, box.max.z), new THREE.Vector3(box.max.x, box.min.y, box.min.z), new THREE.Vector3(box.max.x, box.min.y, box.max.z), new THREE.Vector3(box.max.x, box.max.y, box.min.z), new THREE.Vector3(box.max.x, box.max.y, box.max.z) ]; var minX = Infinity, maxX = -Infinity, minY = Infinity, maxY = -Infinity; var canvasWidth = this.renderDiv.clientWidth; var canvasHeight = this.renderDiv.clientHeight; corners.forEach(function(corner) { // Apply model's world transformation to the local bounding box corners corner.applyMatrix4(_this.pandaModel.matrixWorld); // Project to Normalized Device Coordinates (NDC) corner.project(_this.camera); // Convert NDC to screen coordinates (origin at center of screen) // This matches the coordinate system of pinchPointScreen var screenX = corner.x * (canvasWidth / 2); var screenY = corner.y * (canvasHeight / 2); // In Three.js NDC, +Y is up minX = Math.min(minX, screenX); maxX = Math.max(maxX, screenX); minY = Math.min(minY, screenY); maxY = Math.max(maxY, screenY); }); if (minX === Infinity) return null; // All points were behind camera or some other issue return { minX: minX, minY: minY, maxX: maxX, maxY: maxY }; } }, { key: "_getVisibleVideoParameters", value: function _getVisibleVideoParameters() { if (!this.videoElement || this.videoElement.videoWidth === 0 || this.videoElement.videoHeight === 0) { return null; } var vNatW = this.videoElement.videoWidth; var vNatH = this.videoElement.videoHeight; var rW = this.renderDiv.clientWidth; var rH = this.renderDiv.clientHeight; if (vNatW === 0 || vNatH === 0 || rW === 0 || rH === 0) return null; var videoAR = vNatW / vNatH; var renderDivAR = rW / rH; var finalVideoPixelX, finalVideoPixelY; var visibleVideoPixelWidth, visibleVideoPixelHeight; if (videoAR > renderDivAR) { // Video is wider than renderDiv, scaled to fit renderDiv height, cropped horizontally. var scale = rH / vNatH; // Scale factor based on height. var scaledVideoWidth = vNatW * scale; // Width of video if scaled to fit renderDiv height. // Total original video pixels cropped horizontally (from both sides combined). var totalCroppedPixelsX = (scaledVideoWidth - rW) / scale; finalVideoPixelX = totalCroppedPixelsX / 2; // Pixels cropped from the left of original video. finalVideoPixelY = 0; // No vertical cropping. visibleVideoPixelWidth = vNatW - totalCroppedPixelsX; // Width of the visible part in original video pixels. visibleVideoPixelHeight = vNatH; // Full height is visible. } else { // Video is taller than renderDiv (or same AR), scaled to fit renderDiv width, cropped vertically. var scale1 = rW / vNatW; // Scale factor based on width. var scaledVideoHeight = vNatH * scale1; // Height of video if scaled to fit renderDiv width. // Total original video pixels cropped vertically (from top and bottom combined). var totalCroppedPixelsY = (scaledVideoHeight - rH) / scale1; finalVideoPixelX = 0; // No horizontal cropping. finalVideoPixelY = totalCroppedPixelsY / 2; // Pixels cropped from the top of original video. visibleVideoPixelWidth = vNatW; // Full width is visible. visibleVideoPixelHeight = vNatH - totalCroppedPixelsY; // Height of the visible part in original video pixels. } // Safety check for degenerate cases (e.g., extreme aspect ratios leading to zero visible dimension) if (visibleVideoPixelWidth <= 0 || visibleVideoPixelHeight <= 0) { // Fallback or log error, this shouldn't happen in normal scenarios console.warn("Calculated visible video dimension is zero or negative.", { visibleVideoPixelWidth: visibleVideoPixelWidth, visibleVideoPixelHeight: visibleVideoPixelHeight }); return { offsetX: 0, offsetY: 0, visibleWidth: vNatW, visibleHeight: vNatH, videoNaturalWidth: vNatW, videoNaturalHeight: vNatH }; } return { offsetX: finalVideoPixelX, offsetY: finalVideoPixelY, visibleWidth: visibleVideoPixelWidth, visibleHeight: visibleVideoPixelHeight, videoNaturalWidth: vNatW, videoNaturalHeight: vNatH }; } }, { // _updateGhosts method removed. key: "_showStatusScreen", value: function _showStatusScreen(message) { var color = arguments.length > 1 && arguments[1] !== void 0 ? arguments[1] : 'white', showRestartHint = arguments.length > 2 && arguments[2] !== void 0 ? arguments[2] : false; this.gameOverContainer.style.display = 'block'; this.gameOverText.innerText = message; this.gameOverText.style.color = color; this.restartHintText.style.display = showRestartHint ? 'block' : 'none'; // No spawning to stop for template } }, { key: "_showError", value: function _showError(message) { this.gameOverContainer.style.display = 'block'; this.gameOverText.innerText = "ERROR: ".concat(message); this.gameOverText.style.color = 'orange'; this.restartHintText.style.display = 'true'; // Show restart hint on error this.gameState = 'error'; // No spawning to stop this.hands.forEach(function(hand) { if (hand.lineGroup) hand.lineGroup.visible = false; }); } }, { key: "_restartGame", value: function _restartGame() { console.log("Restarting tracking..."); this.gameOverContainer.style.display = 'none'; this.hands.forEach(function(hand) { if (hand.lineGroup) { hand.lineGroup.visible = false; } }); // Ghost removal removed // Score reset removed // Visibility of game elements removed this.gameState = 'tracking'; // Changed from 'playing' this.lastVideoTime = -1; this.clock.start(); // Removed _startSpawning() } }, { // _updateScoreDisplay method removed. key: "_onResize", value: function _onResize() { var width = this.renderDiv.clientWidth; var height = this.renderDiv.clientHeight; // Update camera perspective this.camera.left = width / -2; this.camera.right = width / 2; this.camera.top = height / 2; this.camera.bottom = height / -2; this.camera.updateProjectionMatrix(); // Update renderer size this.renderer.setSize(width, height); // Update video element size this.videoElement.style.width = width + 'px'; this.videoElement.style.height = height + 'px'; // Watermelon, Chad, GroundLine updates removed. } }, { key: "_updateHandLines", value: function _updateHandLines(handIndex, landmarks, videoParams, canvasWidth, canvasHeight) { var _this = this; var hand = this.hands[handIndex]; var lineGroup = hand.lineGroup; // Determine if this specific hand is currently involved in a grab/scale interaction var isThisHandActivelyInteracting = false; if (this.interactionMode === 'drag' || this.interactionMode === 'rotate') { isThisHandActivelyInteracting = this.grabbingHandIndex === handIndex && this.pickedUpModel === this.pandaModel; } else if (this.interactionMode === 'scale') { // For scale, both hands involved show the effect if scaling is active isThisHandActivelyInteracting = this.scaleInitialPinchDistance !== null && (handIndex === 0 || handIndex === 1); } else if (this.interactionMode === 'animate') { // For animate, the hand controlling animation scrolling (via pinch) shows the effect isThisHandActivelyInteracting = this.animationControlHandIndex === handIndex; } var currentHandMaterial = handIndex === 0 ? this.fingertipMaterialHand1 : this.fingertipMaterialHand2; if (currentHandMaterial) { currentHandMaterial.opacity = isThisHandActivelyInteracting ? this.fingertipGrabOpacity : this.fingertipDefaultOpacity; } while(lineGroup.children.length){ var child = lineGroup.children[0]; lineGroup.remove(child); if (child.geometry) child.geometry.dispose(); // Materials are shared, no need to dispose them here unless they are unique per line/circle } if (!landmarks || landmarks.length === 0 || !videoParams) { lineGroup.visible = false; return; } var isAnyLandmarkOffScreen = false; var _iteratorNormalCompletion = true, _didIteratorError = false, _iteratorError = undefined; try { // First, check if any landmark is off-screen based on unclamped normalized coordinates for(var _iterator = landmarks[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true){ var lm = _step.value; var lmOriginalX = lm.x * videoParams.videoNaturalWidth; var lmOriginalY = lm.y * videoParams.videoNaturalHeight; var normX_visible = (lmOriginalX - videoParams.offsetX) / videoParams.visibleWidth; var normY_visible = (lmOriginalY - videoParams.offsetY) / videoParams.visibleHeight; if (normX_visible < 0 || normX_visible > 1 || normY_visible < 0 || normY_visible > 1) { isAnyLandmarkOffScreen = true; break; } } } catch (err) { _didIteratorError = true; _iteratorError = err; } finally{ try { if (!_iteratorNormalCompletion && _iterator.return != null) { _iterator.return(); } } finally{ if (_didIteratorError) { throw _iteratorError; } } } if (isAnyLandmarkOffScreen) { lineGroup.visible = false; return; } // If all landmarks are on-screen (or would be, before clamping), proceed to calculate points3D for drawing. // These points will use clamped coordinates to ensure they are drawn within canvas bounds if very close to edge. var points3D = landmarks.map(function(lm) { var lmOriginalX = lm.x * videoParams.videoNaturalWidth; var lmOriginalY = lm.y * videoParams.videoNaturalHeight; var normX_visible = (lmOriginalX - videoParams.offsetX) / videoParams.visibleWidth; var normY_visible = (lmOriginalY - videoParams.offsetY) / videoParams.visibleHeight; // Clamp values FOR DRAWING purposes normX_visible = Math.max(0, Math.min(1, normX_visible)); normY_visible = Math.max(0, Math.min(1, normY_visible)); var x = (1 - normX_visible) * canvasWidth - canvasWidth / 2; var y = (1 - normY_visible) * canvasHeight - canvasHeight / 2; return new THREE.Vector3(x, y, 1.1); // Z for fingertip circles, slightly in front of lines }); var lineZ = 1; // Z for connection lines this.handConnections.forEach(function(conn) { var p1 = points3D[conn[0]]; var p2 = points3D[conn[1]]; if (p1 && p2) { // Create points for the line with the correct Z var lineP1 = p1.clone().setZ(lineZ); var lineP2 = p2.clone().setZ(lineZ); var geometry = new THREE.BufferGeometry().setFromPoints([ lineP1, lineP2 ]); var line = new THREE.Line(geometry, _this.handLineMaterial); lineGroup.add(line); } }); // Draw fingertip circles var fingertipRadius = 8; // Radius of the circle for fingertips var wristRadius = 12; // Larger radius for the wrist var circleSegments = 16; // Smoothness of the circle this.fingertipLandmarkIndices.forEach(function(index) { var landmarkPosition = points3D[index]; if (landmarkPosition) { var radius = index === 0 ? wristRadius : fingertipRadius; // Use wristRadius for landmark 0 var circleGeometry = new THREE.CircleGeometry(radius, circleSegments); // The 'currentHandMaterial' (fetched and opacity-updated above) is used here. var landmarkCircle = new THREE.Mesh(circleGeometry, currentHandMaterial); landmarkCircle.position.copy(landmarkPosition); // Already has Z=1.1 // Pulse scaling also depends on 'isThisHandActivelyInteracting' if (isThisHandActivelyInteracting) { // Apply pulsing effect to scale // (1 + sin) / 2 gives a 0-1 range, perfect for modulating amplitude var currentPulseProgress = (1 + Math.sin(_this.clock.elapsedTime * _this.grabbingPulseSpeed)) / 2; var scaleValue = _this.pulseBaseScale + currentPulseProgress * _this.grabbingPulseAmplitude; landmarkCircle.scale.set(scaleValue, scaleValue, 1); } else { landmarkCircle.scale.set(_this.pulseBaseScale, _this.pulseBaseScale, 1); // Reset scale } lineGroup.add(landmarkCircle); } }); lineGroup.visible = true; } }, { key: "_animate", value: function _animate() { requestAnimationFrame(this._animate.bind(this)); var deltaTime = this.clock.getDelta(); // Update hands if tracking if (this.gameState === 'tracking') { this._updateHands(); } // Update animation mixer if (this.animationMixer) { this.animationMixer.update(deltaTime); } // Bounding box helper visibility logic REMOVED // _updateGhosts and _updateParticles calls removed. // Always render the scene this.renderer.render(this.scene, this.camera); } }, { key: "start", value: function start() { var _this = this; // Add click listener for resuming audio context and potentially restarting on error this.renderDiv.addEventListener('click', function() { _this.audioManager.resumeContext(); if (_this.gameState === 'error' || _this.gameState === 'paused') { _this._restartGame(); // Restart tracking } }); console.log('Game setup initiated. Waiting for async operations...'); // Note: Game interaction now starts automatically after _init completes. } }, { key: "_updateSpeechBubbleAppearance", value: function _updateSpeechBubbleAppearance() { if (!this.speechBubble) return; var isPlaceholder = this.speechBubble.innerHTML === "..." || this.speechBubble.innerText === "..."; // Apply active styling only if recognition is generally active AND we are not displaying the placeholder. // This means interim/final text will get the active style, but the "..." placeholder will not, // even if the recognition service itself is still running in the background. var showActiveStyling = this.isSpeechActive && !isPlaceholder; var translateY = isPlaceholder ? '-5px' : '0px'; var scale = showActiveStyling ? '1.15' : '1.0'; this.speechBubble.style.transform = "translateX(-50%) translateY(".concat(translateY, ") scale(").concat(scale, ")"); if (showActiveStyling) { // Cyan glow, blue drop shadow, enhanced original shadow // Active speech bubble: brighter color, stronger shadow this.speechBubble.style.boxShadow = '5px 5px 0px #007bff'; // Active blue shadow this.speechBubble.style.border = '2px solid black'; // Keep black border this.speechBubble.style.padding = '18px 28px'; // Slightly larger padding this.speechBubble.style.fontSize = 'clamp(20px, 3.5vw, 26px)'; // Larger font when active this.speechBubble.style.top = '15px'; // Increased top margin when active, reduced from 30px to complement base 10px } else { // Default/inactive styling // Default/inactive speech bubble styling this.speechBubble.style.boxShadow = '4px 4px 0px rgba(0,0,0,1)'; // Hard black shadow this.speechBubble.style.border = '2px solid black'; // Black border this.speechBubble.style.padding = '15px 25px'; this.speechBubble.style.fontSize = 'clamp(16px, 3vw, 22px)'; // Original font size this.speechBubble.style.top = '10px'; // Original top margin, changed from 20px } } }, { key: "_setupSpeechRecognition", value: function _setupSpeechRecognition() { var _this = this; this.speechManager = new SpeechManager(function(finalTranscript, interimTranscript) { if (_this.speechBubble) { clearTimeout(_this.speechBubbleTimeout); if (finalTranscript) { _this.speechBubble.innerHTML = finalTranscript; _this.speechBubble.style.opacity = '1'; _this.speechBubbleTimeout = setTimeout(function() { _this.speechBubble.innerHTML = "..."; _this.speechBubble.style.opacity = '0.7'; _this._updateSpeechBubbleAppearance(); // Update appearance for "..." }, 2000); } else if (interimTranscript) { _this.speechBubble.innerHTML = ''.concat(interimTranscript, ""); _this.speechBubble.style.opacity = '1'; } else { _this.speechBubbleTimeout = setTimeout(function() { if (_this.speechBubble.innerHTML !== "...") { _this.speechBubble.innerHTML = "..."; } _this.speechBubble.style.opacity = '0.7'; _this._updateSpeechBubbleAppearance(); // Update appearance for "..." }, 500); } _this._updateSpeechBubbleAppearance(); } }, function(isActive) { _this.isSpeechActive = isActive; _this._updateSpeechBubbleAppearance(); }, function(command) { console.log("Game received command: ".concat(command)); var validCommands = [ 'drag', 'rotate', 'scale', 'animate' ]; if (validCommands.includes(command.toLowerCase())) { _this._setInteractionMode(command.toLowerCase()); } else { console.warn("Unrecognized command via speech: ".concat(command)); } }); // Initialize speech bubble with "..." and apply initial appearance if (this.speechBubble) { this.speechBubble.innerHTML = "..."; this.speechBubble.style.opacity = '0.7'; this._updateSpeechBubbleAppearance(); // Apply initial styles (isSpeechActive will be false) } // We will call requestPermissionAndStart() on user interaction (e.g., start button) } }, { key: "_playAnimation", value: function _playAnimation(name) { if (!this.animationActions[name]) { console.warn('Animation "'.concat(name, '" not found.')); return; } var newAction = this.animationActions[name]; if (this.currentAction === newAction && newAction.isRunning()) { console.log('Animation "'.concat(name, '" is already playing.')); return; // Already playing this animation } if (this.currentAction) { this.currentAction.fadeOut(0.5); // Fade out current animation over 0.5 seconds } newAction.reset().fadeIn(0.5).play(); // Reset, fade in and play new animation this.currentAction = newAction; console.log("Playing animation: ".concat(name)); this._updateButtonStyles(name); } }, { key: "_updateButtonStyles", value: function _updateButtonStyles(activeAnimationName) { var buttons = this.animationButtonsContainer.children; for(var i = 0; i < buttons.length; i++){ var button = buttons[i]; var isActive = button.innerText === activeAnimationName; button.style.backgroundColor = isActive ? '#007bff' : '#f0f0f0'; // Blue if active, light grey if not button.style.color = isActive ? 'white' : 'black'; button.style.fontWeight = isActive ? 'bold' : 'normal'; // Active button has its shadow "pressed" button.style.boxShadow = isActive ? '1px 1px 0px black' : '2px 2px 0px black'; } } }, { key: "_setInteractionMode", value: function _setInteractionMode(mode) { var _this = this; if (this.interactionMode === mode) return; // No change console.log("Setting interaction mode to: ".concat(mode)); this.interactionMode = mode; // If currently grabbing, release the model if (this.grabbingHandIndex !== -1 && this.pickedUpModel) { console.log("Interaction mode changed while grabbing. Releasing model from hand ".concat(this.grabbingHandIndex, ".")); this.grabbingHandIndex = -1; this.pickedUpModel = null; this.rotateLastHandX = null; this.scaleInitialPinchDistance = null; // Reset scaling variables this.scaleInitialModelScale = null; // if (this.grabMarker && this.pandaModel) this.grabMarker.visible = true; // Grab marker removed } this._updateHandMaterialsForMode(mode); // Update hand colors for new mode this._updateInteractionModeButtonStyles(); // Show/hide animation buttons container based on mode if (this.animationButtonsContainer) { if (mode === 'animate') { this.animationButtonsContainer.style.display = 'flex'; requestAnimationFrame(function() { _this.animationButtonsContainer.style.opacity = '1'; }); } else { this.animationButtonsContainer.style.opacity = '0'; // Wait for transition to complete before setting display to none setTimeout(function() { if (_this.interactionMode !== 'animate') { _this.animationButtonsContainer.style.display = 'none'; } }, 300); // Corresponds to transition duration } } this._updateInstructionText(); // Update instruction text when mode changes } }, { key: "_updateInstructionText", value: function _updateInstructionText() { if (this.instructionTextElement) { var instruction = this.interactionModeInstructions[this.interactionMode] || "Use hand gestures to interact."; this.instructionTextElement.innerText = instruction; // The instruction text should always be 10px from the bottom. // The animation buttons are positioned from the top-left and should not affect this. this.instructionTextElement.style.bottom = '10px'; // Decreased bottom margin } } }, { key: "_updateHandMaterialsForMode", value: function _updateHandMaterialsForMode(mode) { var modeConfig = this.interactionModeColors[mode]; var colorToSet = modeConfig ? modeConfig.hand : new THREE.Color(0x00ccff); // Fallback color if (this.fingertipMaterialHand1) { this.fingertipMaterialHand1.color.set(colorToSet); } if (this.fingertipMaterialHand2) { this.fingertipMaterialHand2.color.set(colorToSet); } } }, { key: "_updateInteractionModeButtonStyles", value: function _updateInteractionModeButtonStyles() { var _this = this; for(var modeKey in this.interactionModeButtons){ var button = this.interactionModeButtons[modeKey]; var modeConfig = this.interactionModeColors[modeKey]; var fallbackColor = '#6c757d'; var fallbackTextColor = 'white'; if (modeKey === this.interactionMode) { button.style.border = '2px solid black'; // All buttons have black border if (modeConfig) { button.style.backgroundColor = modeConfig.base; button.style.color = modeConfig.text; } else { button.style.backgroundColor = fallbackColor; button.style.color = fallbackTextColor; } button.style.fontWeight = 'bold'; // Already bold from initial setup, but ensure it stays button.style.boxShadow = '1px 1px 0px black'; // "Pressed" shadow for active button } else { button.style.backgroundColor = 'rgba(255, 255, 255, 0.5)'; // More opaque transparent white background button.style.border = '2px solid black'; // Black border for inactive if (modeConfig) { button.style.color = modeConfig.base; // Neon text color } else { button.style.color = fallbackColor; // Fallback text color for inactive } button.style.fontWeight = 'bold'; // Always bold button.style.boxShadow = '2px 2px 0px black'; // Default shadow for inactive } } // Explicitly set display for animationButtonsContainer based on current mode // This ensures it's correct even on initial load if default mode isn't 'animate' if (this.animationButtonsContainer) { if (this.interactionMode === 'animate') { this.animationButtonsContainer.style.display = 'flex'; requestAnimationFrame(function() { _this.animationButtonsContainer.style.opacity = '1'; }); } else { this.animationButtonsContainer.style.opacity = '0'; this.animationButtonsContainer.style.display = 'none'; // Set display none immediately if not animate } } this._updateInstructionText(); // Also call here to adjust position if animation buttons are shown/hidden } }, { key: "_setupDragAndDrop", value: function _setupDragAndDrop() { var _this = this; this.renderDiv.addEventListener('dragover', function(event) { event.preventDefault(); // Prevent default behavior to allow drop event.dataTransfer.dropEffect = 'copy'; // Show a copy icon _this.renderDiv.style.border = '2px dashed #007bff'; // Visual feedback }); this.renderDiv.addEventListener('dragleave', function(event) { _this.renderDiv.style.border = 'none'; // Remove visual feedback }); this.renderDiv.addEventListener('drop', function(event) { event.preventDefault(); _this.renderDiv.style.border = 'none'; // Remove visual feedback if (event.dataTransfer.files && event.dataTransfer.files.length > 0) { var file = event.dataTransfer.files[0]; var fileName = file.name.toLowerCase(); var fileType = file.type.toLowerCase(); if (fileName.endsWith('.gltf') || fileName.endsWith('.glb') || fileType === 'model/gltf+json' || fileType === 'model/gltf-binary') { console.log("GLTF file dropped: ".concat(file.name), file); // Next step: Process and load this file. _this._loadDroppedModel(file); } else { console.warn('Dropped file is not a recognized GLTF format:', file.name, file.type); _this._showStatusScreen('"'.concat(file.name, '" is not a GLTF model.'), 'orange', false); setTimeout(function() { if (_this.gameOverContainer.style.display === 'block' && _this.gameOverText.innerText.includes(file.name)) { _this.gameOverContainer.style.display = 'none'; } }, 3000); } event.dataTransfer.clearData(); } }); } }, { key: "_loadDroppedModel", value: function _loadDroppedModel(file) { var _this = this; console.log("Processing dropped model:", file.name, file.type); var reader = new FileReader(); reader.onload = function(e) { // Pass file.type as well, it might be useful for _parseAndLoadGltf context _this._parseAndLoadGltf(e.target.result, file.name, file.type); }; reader.onerror = function(error) { console.error("FileReader error for ".concat(file.name, ":"), error); _this._showError("Error reading file ".concat(file.name, ".")); // Ensure loading message is hidden if it was shown by this function if (_this.gameOverContainer.style.display === 'block' && _this.gameOverText.innerText.startsWith('Loading "'.concat(file.name, '"'))) { _this.gameOverContainer.style.display = 'none'; } }; var fileNameLower = file.name.toLowerCase(); var fileTypeLower = file.type ? file.type.toLowerCase() : ''; if (fileNameLower.endsWith('.glb') || fileTypeLower === 'model/gltf-binary') { console.log("Reading ".concat(file.name, " as ArrayBuffer.")); reader.readAsArrayBuffer(file); } else if (fileNameLower.endsWith('.gltf') || fileTypeLower === 'model/gltf+json') { console.log("Reading ".concat(file.name, " as text.")); reader.readAsText(file); } else { var message = file.type ? "Unsupported file type: ".concat(file.type) : 'Cannot determine file type.'; console.warn("Unknown file format for GLTF loader: ".concat(file.name, ", Type: ").concat(file.type)); this._showError("".concat(message, " for ").concat(file.name, ". Please drop a .gltf or .glb file.")); // Ensure loading message is hidden if (this.gameOverContainer.style.display === 'block' && this.gameOverText.innerText.startsWith('Loading "'.concat(file.name, '"'))) { this.gameOverContainer.style.display = 'none'; } } } }, { key: "_parseAndLoadGltf", value: function _parseAndLoadGltf(content, fileName, fileType) { var _this = this; var loader = new GLTFLoader(); // GLTFLoader is already imported at the top try { // The 'path' argument is for resolving relative paths for external resources like .bin or textures. // For a single file drop, this is typically empty. If it's a .gltf with external files, // those files would need to be handled separately (e.g., by being dropped together and identified). // This setup works best for self-contained .glb files or .gltf files using data URIs. loader.parse(content, '', function(gltf) { console.log("Successfully parsed GLTF model: ".concat(fileName), gltf); // 1. If a previous model exists, remove it and clean up its animations if (_this.pandaModel) { _this.scene.remove(_this.pandaModel); // Consider disposing geometry/materials of this.pandaModel here for memory management in a larger app console.log("Removed previous model from scene."); if (_this.animationMixer) { _this.animationMixer.stopAllAction(); _this.currentAction = null; } // Clear out old animation buttons while(_this.animationButtonsContainer.firstChild){ _this.animationButtonsContainer.removeChild(_this.animationButtonsContainer.firstChild); } _this.animationActions = {}; _this.animationClips = []; } // 2. Set the new model as the current model _this.pandaModel = gltf.scene; // 3. Scale and position the new model var scale = 80; _this.pandaModel.scale.set(scale, scale, scale); var sceneHeight = _this.renderDiv.clientHeight; _this.pandaModel.position.set(0, sceneHeight * -0.45, -1000); // 4. Add the new model to the scene _this.scene.add(_this.pandaModel); console.log('Added new model "'.concat(fileName, '" to scene.')); // 5. Setup animations for the new model _this.animationMixer = new THREE.AnimationMixer(_this.pandaModel); _this.animationClips = gltf.animations; _this.animationActions = {}; // Ensure it's clean for new actions if (_this.animationClips && _this.animationClips.length) { _this.animationClips.forEach(function(clip, index) { var action = _this.animationMixer.clipAction(clip); var actionName = clip.name || "Animation ".concat(index + 1); _this.animationActions[actionName] = action; var button = document.createElement('button'); button.innerText = actionName; button.style.padding = '5px 10px'; button.style.fontSize = '13px'; button.style.backgroundColor = '#f0f0f0'; button.style.color = 'black'; button.style.border = '2px solid black'; button.style.borderRadius = '4px'; button.style.cursor = 'pointer'; button.style.transition = 'background-color 0.2s ease, box-shadow 0.2s ease'; button.style.boxShadow = '2px 2px 0px black'; button.addEventListener('click', function() { return _this._playAnimation(actionName); }); _this.animationButtonsContainer.appendChild(button); }); var defaultActionName = Object.keys(_this.animationActions)[0]; var idleActionKey = Object.keys(_this.animationActions).find(function(name) { return name.toLowerCase().includes('idle'); }); if (idleActionKey) { defaultActionName = idleActionKey; } if (defaultActionName && _this.animationActions[defaultActionName]) { _this.currentAction = _this.animationActions[defaultActionName]; _this.currentAction.reset().play(); _this._updateButtonStyles(defaultActionName); } else { _this.currentAction = null; } } else { console.log('New model "'.concat(fileName, '" has no embedded animations.')); _this.currentAction = null; } // 6. Reset interaction states _this.grabbingHandIndex = -1; _this.pickedUpModel = null; _this.rotateLastHandX = null; _this.scaleInitialPinchDistance = null; _this.scaleInitialModelScale = null; _this.animationControlHandIndex = -1; _this.animationControlInitialPinchY = null; // This will ensure animation buttons are shown/hidden correctly based on current mode _this._updateInteractionModeButtonStyles(); _this.loadedDroppedModelData = null; // Clear the temp storage }, function(error) { console.error("Error parsing GLTF model ".concat(fileName, ":"), error); _this._showError('Failed to parse "'.concat(fileName, '". Model might be corrupt or unsupported. Check console.')); }); } catch (e) { // This catch is for synchronous errors during loader.parse() setup, though most errors are async. console.error("Critical error during GLTF parsing setup for ".concat(fileName, ":"), e); this._showError('Error setting up parser for "'.concat(fileName, '".')); } } } ]); return Game; }();