(function e(t,n,r){function s(o,u){if(!n[o]){if(!t[o]){var a=typeof require=="function"&&require;if(!u&&a)return a(o,!0);if(i)return i(o,!0);var f=new Error("Cannot find module '"+o+"'");throw f.code="MODULE_NOT_FOUND",f}var l=n[o]={exports:{}};t[o][0].call(l.exports,function(e){var n=t[o][1][e];return s(n?n:e)},l,l.exports,e,t,n,r)}return n[o].exports}var i=typeof require=="function"&&require;for(var o=0;o 0xBF: { code: 'Slash', keyCap: '/' }, // [USB: 0x38] /? (US Standard 101) 0xC0: { code: 'Backquote', keyCap: '`' }, // [USB: 0x35] `~ (US Standard 101) // 0xC1-0xCF - reserved // 0xD0-0xD7 - reserved // 0xD8-0xDA - unassigned 0xDB: { code: 'BracketLeft', keyCap: '[' }, // [USB: 0x2f] [{ (US Standard 101) 0xDC: { code: 'Backslash', keyCap: '\\' }, // [USB: 0x31] \| (US Standard 101) 0xDD: { code: 'BracketRight', keyCap: ']' }, // [USB: 0x30] ]} (US Standard 101) 0xDE: { code: 'Quote', keyCap: '\'' }, // [USB: 0x34] '" (US Standard 101) // 0xDF - miscellaneous/varies // 0xE0 - reserved // 0xE1 - OEM specific 0xE2: { code: 'IntlBackslash', keyCap: '\\' }, // [USB: 0x64] \| (UK Standard 102) // 0xE3-0xE4 - OEM specific 0xE5: { code: 'Process' }, // (Not in D3E) // 0xE6 - OEM specific // 0xE7 - VK_PACKET // 0xE8 - unassigned // 0xE9-0xEF - OEM specific // 0xF0-0xF5 - OEM specific 0xF6: { code: 'Attn' }, // [USB: 0x9a] (Not in D3E) 0xF7: { code: 'CrSel' }, // [USB: 0xa3] (Not in D3E) 0xF8: { code: 'ExSel' }, // [USB: 0xa4] (Not in D3E) 0xF9: { code: 'EraseEof' }, // (Not in D3E) 0xFA: { code: 'Play' }, // (Not in D3E) 0xFB: { code: 'ZoomToggle' }, // (Not in D3E) // 0xFC - VK_NONAME - reserved // 0xFD - VK_PA1 0xFE: { code: 'Clear' // [USB: 0x9c] (Not in D3E) } }; // No legacy keyCode, but listed in D3E: // code: usb // 'IntlHash': 0x070032, // 'IntlRo': 0x070087, // 'IntlYen': 0x070089, // 'NumpadBackspace': 0x0700bb, // 'NumpadClear': 0x0700d8, // 'NumpadClearEntry': 0x0700d9, // 'NumpadMemoryAdd': 0x0700d3, // 'NumpadMemoryClear': 0x0700d2, // 'NumpadMemoryRecall': 0x0700d1, // 'NumpadMemoryStore': 0x0700d0, // 'NumpadMemorySubtract': 0x0700d4, // 'NumpadParenLeft': 0x0700b6, // 'NumpadParenRight': 0x0700b7, //-------------------------------------------------------------------- // // Browser/OS Specific Mappings // //-------------------------------------------------------------------- mergeIf(keyCodeToInfoTable, 'moz', { 0x3B: { code: 'Semicolon', keyCap: ';' }, // [USB: 0x33] ;: (US Standard 101) 0x3D: { code: 'Equal', keyCap: '=' }, // [USB: 0x2e] =+ 0x6B: { code: 'Equal', keyCap: '=' }, // [USB: 0x2e] =+ 0x6D: { code: 'Minus', keyCap: '-' }, // [USB: 0x2d] -_ 0xBB: { code: 'NumpadAdd', keyCap: '+', location: NUMPAD }, // [USB: 0x57] 0xBD: { code: 'NumpadSubtract', keyCap: '-', location: NUMPAD // [USB: 0x56] } }); mergeIf(keyCodeToInfoTable, 'moz-mac', { 0x0C: { code: 'NumLock', location: NUMPAD }, // [USB: 0x53] 0xAD: { code: 'Minus', keyCap: '-' // [USB: 0x2d] -_ } }); mergeIf(keyCodeToInfoTable, 'moz-win', { 0xAD: { code: 'Minus', keyCap: '-' // [USB: 0x2d] -_ } }); mergeIf(keyCodeToInfoTable, 'chrome-mac', { 0x5D: { code: 'OSRight', location: RIGHT // [USB: 0xe7] } }); // Windows via Bootcamp (!) if (0) { mergeIf(keyCodeToInfoTable, 'chrome-win', { 0xC0: { code: 'Quote', keyCap: '\'' }, // [USB: 0x34] '" (US Standard 101) 0xDE: { code: 'Backslash', keyCap: '\\' }, // [USB: 0x31] \| (US Standard 101) 0xDF: { code: 'Backquote', keyCap: '`' // [USB: 0x35] `~ (US Standard 101) } }); mergeIf(keyCodeToInfoTable, 'ie', { 0xC0: { code: 'Quote', keyCap: '\'' }, // [USB: 0x34] '" (US Standard 101) 0xDE: { code: 'Backslash', keyCap: '\\' }, // [USB: 0x31] \| (US Standard 101) 0xDF: { code: 'Backquote', keyCap: '`' // [USB: 0x35] `~ (US Standard 101) } }); } mergeIf(keyCodeToInfoTable, 'safari', { 0x03: { code: 'Enter' }, // [USB: 0x28] old Safari 0x19: { code: 'Tab' // [USB: 0x2b] old Safari for Shift+Tab } }); mergeIf(keyCodeToInfoTable, 'ios', { 0x0A: { code: 'Enter', location: STANDARD // [USB: 0x28] } }); mergeIf(keyCodeToInfoTable, 'safari-mac', { 0x5B: { code: 'OSLeft', location: LEFT }, // [USB: 0xe3] 0x5D: { code: 'OSRight', location: RIGHT }, // [USB: 0xe7] 0xE5: { code: 'KeyQ', keyCap: 'Q' // [USB: 0x14] On alternate presses, Ctrl+Q sends this } }); //-------------------------------------------------------------------- // // Identifier Mappings // //-------------------------------------------------------------------- // Cases where newer-ish browsers send keyIdentifier which can be // used to disambiguate keys. // keyIdentifierTable[keyIdentifier] -> keyInfo var keyIdentifierTable = {}; if ('cros' === os) { keyIdentifierTable['U+00A0'] = { code: 'ShiftLeft', location: LEFT }; keyIdentifierTable['U+00A1'] = { code: 'ShiftRight', location: RIGHT }; keyIdentifierTable['U+00A2'] = { code: 'ControlLeft', location: LEFT }; keyIdentifierTable['U+00A3'] = { code: 'ControlRight', location: RIGHT }; keyIdentifierTable['U+00A4'] = { code: 'AltLeft', location: LEFT }; keyIdentifierTable['U+00A5'] = { code: 'AltRight', location: RIGHT }; } if ('chrome-mac' === browser_os) { keyIdentifierTable['U+0010'] = { code: 'ContextMenu' }; } if ('safari-mac' === browser_os) { keyIdentifierTable['U+0010'] = { code: 'ContextMenu' }; } if ('ios' === os) { // These only generate keyup events keyIdentifierTable['U+0010'] = { code: 'Function' }; keyIdentifierTable['U+001C'] = { code: 'ArrowLeft' }; keyIdentifierTable['U+001D'] = { code: 'ArrowRight' }; keyIdentifierTable['U+001E'] = { code: 'ArrowUp' }; keyIdentifierTable['U+001F'] = { code: 'ArrowDown' }; keyIdentifierTable['U+0001'] = { code: 'Home' }; // [USB: 0x4a] Fn + ArrowLeft keyIdentifierTable['U+0004'] = { code: 'End' }; // [USB: 0x4d] Fn + ArrowRight keyIdentifierTable['U+000B'] = { code: 'PageUp' }; // [USB: 0x4b] Fn + ArrowUp keyIdentifierTable['U+000C'] = { code: 'PageDown' }; // [USB: 0x4e] Fn + ArrowDown } //-------------------------------------------------------------------- // // Location Mappings // //-------------------------------------------------------------------- // Cases where newer-ish browsers send location/keyLocation which // can be used to disambiguate keys. // locationTable[location][keyCode] -> keyInfo var locationTable = []; locationTable[LEFT] = { 0x10: { code: 'ShiftLeft', location: LEFT }, // [USB: 0xe1] 0x11: { code: 'ControlLeft', location: LEFT }, // [USB: 0xe0] 0x12: { code: 'AltLeft', location: LEFT // [USB: 0xe2] } }; locationTable[RIGHT] = { 0x10: { code: 'ShiftRight', location: RIGHT }, // [USB: 0xe5] 0x11: { code: 'ControlRight', location: RIGHT }, // [USB: 0xe4] 0x12: { code: 'AltRight', location: RIGHT // [USB: 0xe6] } }; locationTable[NUMPAD] = { 0x0D: { code: 'NumpadEnter', location: NUMPAD // [USB: 0x58] } }; mergeIf(locationTable[NUMPAD], 'moz', { 0x6D: { code: 'NumpadSubtract', location: NUMPAD }, // [USB: 0x56] 0x6B: { code: 'NumpadAdd', location: NUMPAD // [USB: 0x57] } }); mergeIf(locationTable[LEFT], 'moz-mac', { 0xE0: { code: 'OSLeft', location: LEFT // [USB: 0xe3] } }); mergeIf(locationTable[RIGHT], 'moz-mac', { 0xE0: { code: 'OSRight', location: RIGHT // [USB: 0xe7] } }); mergeIf(locationTable[RIGHT], 'moz-win', { 0x5B: { code: 'OSRight', location: RIGHT // [USB: 0xe7] } }); mergeIf(locationTable[RIGHT], 'mac', { 0x5D: { code: 'OSRight', location: RIGHT // [USB: 0xe7] } }); mergeIf(locationTable[NUMPAD], 'chrome-mac', { 0x0C: { code: 'NumLock', location: NUMPAD // [USB: 0x53] } }); mergeIf(locationTable[NUMPAD], 'safari-mac', { 0x0C: { code: 'NumLock', location: NUMPAD }, // [USB: 0x53] 0xBB: { code: 'NumpadAdd', location: NUMPAD }, // [USB: 0x57] 0xBD: { code: 'NumpadSubtract', location: NUMPAD }, // [USB: 0x56] 0xBE: { code: 'NumpadDecimal', location: NUMPAD }, // [USB: 0x63] 0xBF: { code: 'NumpadDivide', location: NUMPAD // [USB: 0x54] } }); //-------------------------------------------------------------------- // // Key Values // //-------------------------------------------------------------------- // Mapping from `code` values to `key` values. Values defined at: // https://dvcs.w3.org/hg/dom3events/raw-file/tip/html/DOM3Events-key.html // Entries are only provided when `key` differs from `code`. If // printable, `shiftKey` has the shifted printable character. This // assumes US Standard 101 layout var codeToKeyTable = { // Modifier Keys ShiftLeft: { key: 'Shift' }, ShiftRight: { key: 'Shift' }, ControlLeft: { key: 'Control' }, ControlRight: { key: 'Control' }, AltLeft: { key: 'Alt' }, AltRight: { key: 'Alt' }, OSLeft: { key: 'OS' }, OSRight: { key: 'OS' }, // Whitespace Keys NumpadEnter: { key: 'Enter' }, Space: { key: ' ' }, // Printable Keys Digit0: { key: '0', shiftKey: ')' }, Digit1: { key: '1', shiftKey: '!' }, Digit2: { key: '2', shiftKey: '@' }, Digit3: { key: '3', shiftKey: '#' }, Digit4: { key: '4', shiftKey: '$' }, Digit5: { key: '5', shiftKey: '%' }, Digit6: { key: '6', shiftKey: '^' }, Digit7: { key: '7', shiftKey: '&' }, Digit8: { key: '8', shiftKey: '*' }, Digit9: { key: '9', shiftKey: '(' }, KeyA: { key: 'a', shiftKey: 'A' }, KeyB: { key: 'b', shiftKey: 'B' }, KeyC: { key: 'c', shiftKey: 'C' }, KeyD: { key: 'd', shiftKey: 'D' }, KeyE: { key: 'e', shiftKey: 'E' }, KeyF: { key: 'f', shiftKey: 'F' }, KeyG: { key: 'g', shiftKey: 'G' }, KeyH: { key: 'h', shiftKey: 'H' }, KeyI: { key: 'i', shiftKey: 'I' }, KeyJ: { key: 'j', shiftKey: 'J' }, KeyK: { key: 'k', shiftKey: 'K' }, KeyL: { key: 'l', shiftKey: 'L' }, KeyM: { key: 'm', shiftKey: 'M' }, KeyN: { key: 'n', shiftKey: 'N' }, KeyO: { key: 'o', shiftKey: 'O' }, KeyP: { key: 'p', shiftKey: 'P' }, KeyQ: { key: 'q', shiftKey: 'Q' }, KeyR: { key: 'r', shiftKey: 'R' }, KeyS: { key: 's', shiftKey: 'S' }, KeyT: { key: 't', shiftKey: 'T' }, KeyU: { key: 'u', shiftKey: 'U' }, KeyV: { key: 'v', shiftKey: 'V' }, KeyW: { key: 'w', shiftKey: 'W' }, KeyX: { key: 'x', shiftKey: 'X' }, KeyY: { key: 'y', shiftKey: 'Y' }, KeyZ: { key: 'z', shiftKey: 'Z' }, Numpad0: { key: '0' }, Numpad1: { key: '1' }, Numpad2: { key: '2' }, Numpad3: { key: '3' }, Numpad4: { key: '4' }, Numpad5: { key: '5' }, Numpad6: { key: '6' }, Numpad7: { key: '7' }, Numpad8: { key: '8' }, Numpad9: { key: '9' }, NumpadMultiply: { key: '*' }, NumpadAdd: { key: '+' }, NumpadComma: { key: ',' }, NumpadSubtract: { key: '-' }, NumpadDecimal: { key: '.' }, NumpadDivide: { key: '/' }, Semicolon: { key: ';', shiftKey: ':' }, Equal: { key: '=', shiftKey: '+' }, Comma: { key: ',', shiftKey: '<' }, Minus: { key: '-', shiftKey: '_' }, Period: { key: '.', shiftKey: '>' }, Slash: { key: '/', shiftKey: '?' }, Backquote: { key: '`', shiftKey: '~' }, BracketLeft: { key: '[', shiftKey: '{' }, Backslash: { key: '\\', shiftKey: '|' }, BracketRight: { key: ']', shiftKey: '}' }, Quote: { key: '\'', shiftKey: '"' }, IntlBackslash: { key: '\\', shiftKey: '|' } }; mergeIf(codeToKeyTable, 'mac', { OSLeft: { key: 'Meta' }, OSRight: { key: 'Meta' } }); // Corrections for 'key' names in older browsers (e.g. FF36-) // https://developer.mozilla.org/en-US/docs/Web/API/KeyboardEvent.key#Key_values var keyFixTable = { Esc: 'Escape', Nonconvert: 'NonConvert', Left: 'ArrowLeft', Up: 'ArrowUp', Right: 'ArrowRight', Down: 'ArrowDown', Del: 'Delete', Menu: 'ContextMenu', MediaNextTrack: 'MediaTrackNext', MediaPreviousTrack: 'MediaTrackPrevious', SelectMedia: 'MediaSelect', HalfWidth: 'Hankaku', FullWidth: 'Zenkaku', RomanCharacters: 'Romaji', Crsel: 'CrSel', Exsel: 'ExSel', Zoom: 'ZoomToggle' }; //-------------------------------------------------------------------- // // Exported Functions // //-------------------------------------------------------------------- var codeTable = remap(keyCodeToInfoTable, 'code'); try { var nativeLocation = nativeKeyboardEvent && 'location' in new KeyboardEvent(''); } catch (_) {} function keyInfoForEvent(event) { var keyCode = 'keyCode' in event ? event.keyCode : 'which' in event ? event.which : 0; var keyInfo = function () { if (nativeLocation || 'keyLocation' in event) { var location = nativeLocation ? event.location : event.keyLocation; if (location && keyCode in locationTable[location]) { return locationTable[location][keyCode]; } } if ('keyIdentifier' in event && event.keyIdentifier in keyIdentifierTable) { return keyIdentifierTable[event.keyIdentifier]; } if (keyCode in keyCodeToInfoTable) { return keyCodeToInfoTable[keyCode]; } return null; }(); // TODO: Track these down and move to general tables if (0) { // TODO: Map these for newerish browsers? // TODO: iOS only? // TODO: Override with more common keyIdentifier name? switch (event.keyIdentifier) { case 'U+0010': keyInfo = { code: 'Function' };break; case 'U+001C': keyInfo = { code: 'ArrowLeft' };break; case 'U+001D': keyInfo = { code: 'ArrowRight' };break; case 'U+001E': keyInfo = { code: 'ArrowUp' };break; case 'U+001F': keyInfo = { code: 'ArrowDown' };break; } } if (!keyInfo) return null; var key = function () { var entry = codeToKeyTable[keyInfo.code]; if (!entry) return keyInfo.code; return event.shiftKey && 'shiftKey' in entry ? entry.shiftKey : entry.key; }(); return { code: keyInfo.code, key: key, location: keyInfo.location, keyCap: keyInfo.keyCap }; } function queryKeyCap(code, locale) { code = String(code); if (!codeTable.hasOwnProperty(code)) return 'Undefined'; if (locale && String(locale).toLowerCase() !== 'en-us') throw Error('Unsupported locale'); var keyInfo = codeTable[code]; return keyInfo.keyCap || keyInfo.code || 'Undefined'; } if ('KeyboardEvent' in global && 'defineProperty' in Object) { (function () { function define(o, p, v) { if (p in o) return; Object.defineProperty(o, p, v); } define(KeyboardEvent.prototype, 'code', { get: function get() { var keyInfo = keyInfoForEvent(this); return keyInfo ? keyInfo.code : ''; } }); // Fix for nonstandard `key` values (FF36-) if ('key' in KeyboardEvent.prototype) { var desc = Object.getOwnPropertyDescriptor(KeyboardEvent.prototype, 'key'); Object.defineProperty(KeyboardEvent.prototype, 'key', { get: function get() { var key = desc.get.call(this); return keyFixTable.hasOwnProperty(key) ? keyFixTable[key] : key; } }); } define(KeyboardEvent.prototype, 'key', { get: function get() { var keyInfo = keyInfoForEvent(this); return keyInfo && 'key' in keyInfo ? keyInfo.key : 'Unidentified'; } }); define(KeyboardEvent.prototype, 'location', { get: function get() { var keyInfo = keyInfoForEvent(this); return keyInfo && 'location' in keyInfo ? keyInfo.location : STANDARD; } }); define(KeyboardEvent.prototype, 'locale', { get: function get() { return ''; } }); })(); } if (!('queryKeyCap' in global.KeyboardEvent)) global.KeyboardEvent.queryKeyCap = queryKeyCap; // Helper for IE8- global.identifyKey = function (event) { if ('code' in event) return; var keyInfo = keyInfoForEvent(event); event.code = keyInfo ? keyInfo.code : ''; event.key = keyInfo && 'key' in keyInfo ? keyInfo.key : 'Unidentified'; event.location = 'location' in event ? event.location : 'keyLocation' in event ? event.keyLocation : keyInfo && 'location' in keyInfo ? keyInfo.location : STANDARD; event.locale = ''; }; })(window); },{}],5:[function(require,module,exports){ 'use strict'; var EPS = 0.1; module.exports = AFRAME.registerComponent('checkpoint-controls', { schema: { enabled: { default: true }, mode: { default: 'teleport', oneOf: ['teleport', 'animate'] }, animateSpeed: { default: 3.0 } }, init: function init() { this.active = true; this.checkpoint = null; this.isNavMeshConstrained = false; this.offset = new THREE.Vector3(); this.position = new THREE.Vector3(); this.targetPosition = new THREE.Vector3(); }, play: function play() { this.active = true; }, pause: function pause() { this.active = false; }, setCheckpoint: function setCheckpoint(checkpoint) { var el = this.el; if (!this.active) return; if (this.checkpoint === checkpoint) return; if (this.checkpoint) { el.emit('navigation-end', { checkpoint: this.checkpoint }); } this.checkpoint = checkpoint; this.sync(); // Ignore new checkpoint if we're already there. if (this.position.distanceTo(this.targetPosition) < EPS) { this.checkpoint = null; return; } el.emit('navigation-start', { checkpoint: checkpoint }); if (this.data.mode === 'teleport') { this.el.setAttribute('position', this.targetPosition); this.checkpoint = null; el.emit('navigation-end', { checkpoint: checkpoint }); el.components['movement-controls'].updateNavLocation(); } }, isVelocityActive: function isVelocityActive() { return !!(this.active && this.checkpoint); }, getVelocity: function getVelocity() { if (!this.active) return; var data = this.data; var offset = this.offset; var position = this.position; var targetPosition = this.targetPosition; var checkpoint = this.checkpoint; this.sync(); if (position.distanceTo(targetPosition) < EPS) { this.checkpoint = null; this.el.emit('navigation-end', { checkpoint: checkpoint }); return offset.set(0, 0, 0); } offset.setLength(data.animateSpeed); return offset; }, sync: function sync() { var offset = this.offset; var position = this.position; var targetPosition = this.targetPosition; position.copy(this.el.getAttribute('position')); this.checkpoint.object3D.getWorldPosition(targetPosition); targetPosition.add(this.checkpoint.components.checkpoint.getOffset()); offset.copy(targetPosition).sub(position); } }); },{}],6:[function(require,module,exports){ 'use strict'; /** * Gamepad controls for A-Frame. * * Stripped-down version of: https://github.com/donmccurdy/aframe-gamepad-controls * * For more information about the Gamepad API, see: * https://developer.mozilla.org/en-US/docs/Web/API/Gamepad_API/Using_the_Gamepad_API */ var GamepadButton = require('../../lib/GamepadButton'), GamepadButtonEvent = require('../../lib/GamepadButtonEvent'); var JOYSTICK_EPS = 0.2; module.exports = AFRAME.registerComponent('gamepad-controls', { /******************************************************************* * Statics */ GamepadButton: GamepadButton, /******************************************************************* * Schema */ schema: { // Controller 0-3 controller: { default: 0, oneOf: [0, 1, 2, 3] }, // Enable/disable features enabled: { default: true }, // Debugging debug: { default: false }, // Heading element for rotation camera: { default: '[camera]', type: 'selector' }, // Rotation sensitivity rotationSensitivity: { default: 2.0 } }, /******************************************************************* * Core */ /** * Called once when component is attached. Generally for initial setup. */ init: function init() { var scene = this.el.sceneEl; this.prevTime = window.performance.now(); // Button state this.buttons = {}; // Rotation var rotation = this.el.object3D.rotation; this.pitch = new THREE.Object3D(); this.pitch.rotation.x = THREE.Math.degToRad(rotation.x); this.yaw = new THREE.Object3D(); this.yaw.position.y = 10; this.yaw.rotation.y = THREE.Math.degToRad(rotation.y); this.yaw.add(this.pitch); scene.addBehavior(this); }, /** * Called when component is attached and when component data changes. * Generally modifies the entity based on the data. */ update: function update() { this.tick(); }, /** * Called on each iteration of main render loop. */ tick: function tick(t, dt) { this.updateButtonState(); this.updateRotation(dt); }, /** * Called when a component is removed (e.g., via removeAttribute). * Generally undoes all modifications to the entity. */ remove: function remove() {}, /******************************************************************* * Movement */ isVelocityActive: function isVelocityActive() { if (!this.data.enabled || !this.isConnected()) return false; var dpad = this.getDpad(), joystick0 = this.getJoystick(0), inputX = dpad.x || joystick0.x, inputY = dpad.y || joystick0.y; return Math.abs(inputX) > JOYSTICK_EPS || Math.abs(inputY) > JOYSTICK_EPS; }, getVelocityDelta: function getVelocityDelta() { var dpad = this.getDpad(), joystick0 = this.getJoystick(0), inputX = dpad.x || joystick0.x, inputY = dpad.y || joystick0.y, dVelocity = new THREE.Vector3(); if (Math.abs(inputX) > JOYSTICK_EPS) { dVelocity.x += inputX; } if (Math.abs(inputY) > JOYSTICK_EPS) { dVelocity.z += inputY; } return dVelocity; }, /******************************************************************* * Rotation */ isRotationActive: function isRotationActive() { if (!this.data.enabled || !this.isConnected()) return false; var joystick1 = this.getJoystick(1); return Math.abs(joystick1.x) > JOYSTICK_EPS || Math.abs(joystick1.y) > JOYSTICK_EPS; }, updateRotation: function updateRotation(dt) { if (!this.isRotationActive()) return; var data = this.data; var yaw = this.yaw; var pitch = this.pitch; var lookControls = data.camera.components['look-controls']; var hasLookControls = lookControls && lookControls.pitchObject && lookControls.yawObject; // Sync with look-controls pitch/yaw if available. if (hasLookControls) { pitch.rotation.copy(lookControls.pitchObject.rotation); yaw.rotation.copy(lookControls.yawObject.rotation); } var lookVector = this.getJoystick(1); if (Math.abs(lookVector.x) <= JOYSTICK_EPS) lookVector.x = 0; if (Math.abs(lookVector.y) <= JOYSTICK_EPS) lookVector.y = 0; lookVector.multiplyScalar(data.rotationSensitivity * dt / 1000); yaw.rotation.y -= lookVector.x; pitch.rotation.x -= lookVector.y; pitch.rotation.x = Math.max(-Math.PI / 2, Math.min(Math.PI / 2, pitch.rotation.x)); data.camera.object3D.rotation.set(pitch.rotation.x, yaw.rotation.y, 0); // Sync with look-controls pitch/yaw if available. if (hasLookControls) { lookControls.pitchObject.rotation.copy(pitch.rotation); lookControls.yawObject.rotation.copy(yaw.rotation); } }, /******************************************************************* * Button events */ updateButtonState: function updateButtonState() { var gamepad = this.getGamepad(); if (this.data.enabled && gamepad) { // Fire DOM events for button state changes. for (var i = 0; i < gamepad.buttons.length; i++) { if (gamepad.buttons[i].pressed && !this.buttons[i]) { this.emit(new GamepadButtonEvent('gamepadbuttondown', i, gamepad.buttons[i])); } else if (!gamepad.buttons[i].pressed && this.buttons[i]) { this.emit(new GamepadButtonEvent('gamepadbuttonup', i, gamepad.buttons[i])); } this.buttons[i] = gamepad.buttons[i].pressed; } } else if (Object.keys(this.buttons)) { // Reset state if controls are disabled or controller is lost. this.buttons = {}; } }, emit: function emit(event) { // Emit original event. this.el.emit(event.type, event); // Emit convenience event, identifying button index. this.el.emit(event.type + ':' + event.index, new GamepadButtonEvent(event.type, event.index, event)); }, /******************************************************************* * Gamepad state */ /** * Returns the Gamepad instance attached to the component. If connected, * a proxy-controls component may provide access to Gamepad input from a * remote device. * * @return {Gamepad} */ getGamepad: function getGamepad() { var localGamepad = navigator.getGamepads && navigator.getGamepads()[this.data.controller], proxyControls = this.el.sceneEl.components['proxy-controls'], proxyGamepad = proxyControls && proxyControls.isConnected() && proxyControls.getGamepad(this.data.controller); return proxyGamepad || localGamepad; }, /** * Returns the state of the given button. * @param {number} index The button (0-N) for which to find state. * @return {GamepadButton} */ getButton: function getButton(index) { return this.getGamepad().buttons[index]; }, /** * Returns state of the given axis. Axes are labelled 0-N, where 0-1 will * represent X/Y on the first joystick, and 2-3 X/Y on the second. * @param {number} index The axis (0-N) for which to find state. * @return {number} On the interval [-1,1]. */ getAxis: function getAxis(index) { return this.getGamepad().axes[index]; }, /** * Returns the state of the given joystick (0 or 1) as a THREE.Vector2. * @param {number} id The joystick (0, 1) for which to find state. * @return {THREE.Vector2} */ getJoystick: function getJoystick(index) { var gamepad = this.getGamepad(); switch (index) { case 0: return new THREE.Vector2(gamepad.axes[0], gamepad.axes[1]); case 1: return new THREE.Vector2(gamepad.axes[2], gamepad.axes[3]); default: throw new Error('Unexpected joystick index "%d".', index); } }, /** * Returns the state of the dpad as a THREE.Vector2. * @return {THREE.Vector2} */ getDpad: function getDpad() { var gamepad = this.getGamepad(); if (!gamepad.buttons[GamepadButton.DPAD_RIGHT]) { return new THREE.Vector2(); } return new THREE.Vector2((gamepad.buttons[GamepadButton.DPAD_RIGHT].pressed ? 1 : 0) + (gamepad.buttons[GamepadButton.DPAD_LEFT].pressed ? -1 : 0), (gamepad.buttons[GamepadButton.DPAD_UP].pressed ? -1 : 0) + (gamepad.buttons[GamepadButton.DPAD_DOWN].pressed ? 1 : 0)); }, /** * Returns true if the gamepad is currently connected to the system. * @return {boolean} */ isConnected: function isConnected() { var gamepad = this.getGamepad(); return !!(gamepad && gamepad.connected); }, /** * Returns a string containing some information about the controller. Result * may vary across browsers, for a given controller. * @return {string} */ getID: function getID() { return this.getGamepad().id; } }); },{"../../lib/GamepadButton":2,"../../lib/GamepadButtonEvent":3}],7:[function(require,module,exports){ 'use strict'; require('./checkpoint-controls'); require('./gamepad-controls'); require('./keyboard-controls'); require('./touch-controls'); require('./movement-controls'); require('./trackpad-controls'); },{"./checkpoint-controls":5,"./gamepad-controls":6,"./keyboard-controls":8,"./movement-controls":9,"./touch-controls":10,"./trackpad-controls":11}],8:[function(require,module,exports){ 'use strict'; require('../../lib/keyboard.polyfill'); var MAX_DELTA = 0.2, PROXY_FLAG = '__keyboard-controls-proxy'; var KeyboardEvent = window.KeyboardEvent; /** * Keyboard Controls component. * * Stripped-down version of: https://github.com/donmccurdy/aframe-keyboard-controls * * Bind keyboard events to components, or control your entities with the WASD keys. * * Why use KeyboardEvent.code? "This is set to a string representing the key that was pressed to * generate the KeyboardEvent, without taking the current keyboard layout (e.g., QWERTY vs. * Dvorak), locale (e.g., English vs. French), or any modifier keys into account. This is useful * when you care about which physical key was pressed, rather thanwhich character it corresponds * to. For example, if you’re a writing a game, you might want a certain set of keys to move the * player in different directions, and that mapping should ideally be independent of keyboard * layout. See: https://developers.google.com/web/updates/2016/04/keyboardevent-keys-codes * * @namespace wasd-controls * keys the entity moves and if you release it will stop. Easing simulates friction. * to the entity when pressing the keys. * @param {bool} [enabled=true] - To completely enable or disable the controls */ module.exports = AFRAME.registerComponent('keyboard-controls', { schema: { enabled: { default: true }, debug: { default: false } }, init: function init() { this.dVelocity = new THREE.Vector3(); this.localKeys = {}; this.listeners = { keydown: this.onKeyDown.bind(this), keyup: this.onKeyUp.bind(this), blur: this.onBlur.bind(this) }; this.attachEventListeners(); }, /******************************************************************* * Movement */ isVelocityActive: function isVelocityActive() { return this.data.enabled && !!Object.keys(this.getKeys()).length; }, getVelocityDelta: function getVelocityDelta() { var data = this.data, keys = this.getKeys(); this.dVelocity.set(0, 0, 0); if (data.enabled) { if (keys.KeyW || keys.ArrowUp) { this.dVelocity.z -= 1; } if (keys.KeyA || keys.ArrowLeft) { this.dVelocity.x -= 1; } if (keys.KeyS || keys.ArrowDown) { this.dVelocity.z += 1; } if (keys.KeyD || keys.ArrowRight) { this.dVelocity.x += 1; } } return this.dVelocity.clone(); }, /******************************************************************* * Events */ play: function play() { this.attachEventListeners(); }, pause: function pause() { this.removeEventListeners(); }, remove: function remove() { this.pause(); }, attachEventListeners: function attachEventListeners() { window.addEventListener('keydown', this.listeners.keydown, false); window.addEventListener('keyup', this.listeners.keyup, false); window.addEventListener('blur', this.listeners.blur, false); }, removeEventListeners: function removeEventListeners() { window.removeEventListener('keydown', this.listeners.keydown); window.removeEventListener('keyup', this.listeners.keyup); window.removeEventListener('blur', this.listeners.blur); }, onKeyDown: function onKeyDown(event) { if (AFRAME.utils.shouldCaptureKeyEvent(event)) { this.localKeys[event.code] = true; this.emit(event); } }, onKeyUp: function onKeyUp(event) { if (AFRAME.utils.shouldCaptureKeyEvent(event)) { delete this.localKeys[event.code]; this.emit(event); } }, onBlur: function onBlur() { for (var code in this.localKeys) { if (this.localKeys.hasOwnProperty(code)) { delete this.localKeys[code]; } } }, emit: function emit(event) { // TODO - keydown only initially? // TODO - where the f is the spacebar // Emit original event. if (PROXY_FLAG in event) { // TODO - Method never triggered. this.el.emit(event.type, event); } // Emit convenience event, identifying key. this.el.emit(event.type + ':' + event.code, new KeyboardEvent(event.type, event)); if (this.data.debug) console.log(event.type + ':' + event.code); }, /******************************************************************* * Accessors */ isPressed: function isPressed(code) { return code in this.getKeys(); }, getKeys: function getKeys() { if (this.isProxied()) { return this.el.sceneEl.components['proxy-controls'].getKeyboard(); } return this.localKeys; }, isProxied: function isProxied() { var proxyControls = this.el.sceneEl.components['proxy-controls']; return proxyControls && proxyControls.isConnected(); } }); },{"../../lib/keyboard.polyfill":4}],9:[function(require,module,exports){ 'use strict'; /** * Movement Controls * * @author Don McCurdy */ var COMPONENT_SUFFIX = '-controls', MAX_DELTA = 0.2, // ms EPS = 10e-6; module.exports = AFRAME.registerComponent('movement-controls', { /******************************************************************* * Schema */ dependencies: ['rotation'], schema: { enabled: { default: true }, controls: { default: ['gamepad', 'trackpad', 'keyboard', 'touch'] }, speed: { default: 0.3, min: 0 }, fly: { default: false }, constrainToNavMesh: { default: false }, camera: { default: '[movement-controls] [camera]', type: 'selector' } }, /******************************************************************* * Lifecycle */ init: function init() { var el = this.el; this.velocityCtrl = null; this.velocity = new THREE.Vector3(); this.heading = new THREE.Quaternion(); // Navigation this.navGroup = null; this.navNode = null; if (el.sceneEl.hasLoaded) { this.injectControls(); } else { el.sceneEl.addEventListener('loaded', this.injectControls.bind(this)); } }, update: function update(prevData) { var el = this.el; var data = this.data; var nav = el.sceneEl.systems.nav; if (el.sceneEl.hasLoaded) { this.injectControls(); } if (nav && data.constrainToNavMesh !== prevData.constrainToNavMesh) { data.constrainToNavMesh ? nav.addAgent(this) : nav.removeAgent(this); } }, injectControls: function injectControls() { var data = this.data; var name; for (var i = 0; i < data.controls.length; i++) { name = data.controls[i] + COMPONENT_SUFFIX; if (!this.el.components[name]) { this.el.setAttribute(name, ''); } } }, updateNavLocation: function updateNavLocation() { this.navGroup = null; this.navNode = null; }, /******************************************************************* * Tick */ tick: function () { var start = new THREE.Vector3(); var end = new THREE.Vector3(); var clampedEnd = new THREE.Vector3(); return function (t, dt) { if (!dt) return; var el = this.el; var data = this.data; if (!data.enabled) return; this.updateVelocityCtrl(); var velocityCtrl = this.velocityCtrl; var velocity = this.velocity; if (!velocityCtrl) return; // Update velocity. If FPS is too low, reset. if (dt / 1000 > MAX_DELTA) { velocity.set(0, 0, 0); } else { this.updateVelocity(dt); } if (data.constrainToNavMesh && velocityCtrl.isNavMeshConstrained !== false) { if (velocity.lengthSq() < EPS) return; start.copy(el.object3D.position); end.copy(velocity).multiplyScalar(dt / 1000).add(start); var nav = el.sceneEl.systems.nav; this.navGroup = this.navGroup === null ? nav.getGroup(start) : this.navGroup; this.navNode = this.navNode || nav.getNode(start, this.navGroup); this.navNode = nav.clampStep(start, end, this.navGroup, this.navNode, clampedEnd); el.object3D.position.copy(clampedEnd); } else if (el.hasAttribute('velocity')) { el.setAttribute('velocity', velocity); } else { el.object3D.position.x += velocity.x * dt / 1000; el.object3D.position.y += velocity.y * dt / 1000; el.object3D.position.z += velocity.z * dt / 1000; } }; }(), /******************************************************************* * Movement */ updateVelocityCtrl: function updateVelocityCtrl() { var data = this.data; if (data.enabled) { for (var i = 0, l = data.controls.length; i < l; i++) { var control = this.el.components[data.controls[i] + COMPONENT_SUFFIX]; if (control && control.isVelocityActive()) { this.velocityCtrl = control; return; } } this.velocityCtrl = null; } }, updateVelocity: function () { var vector2 = new THREE.Vector2(); var quaternion = new THREE.Quaternion(); return function (dt) { var dVelocity = void 0; var el = this.el; var control = this.velocityCtrl; var velocity = this.velocity; var data = this.data; if (control) { if (control.getVelocityDelta) { dVelocity = control.getVelocityDelta(dt); } else if (control.getVelocity) { velocity.copy(control.getVelocity()); return; } else if (control.getPositionDelta) { velocity.copy(control.getPositionDelta(dt).multiplyScalar(1000 / dt)); return; } else { throw new Error('Incompatible movement controls: ', control); } } if (el.hasAttribute('velocity') && !data.constrainToNavMesh) { velocity.copy(this.el.getAttribute('velocity')); } if (dVelocity && data.enabled) { var cameraEl = data.camera; // Rotate to heading quaternion.copy(cameraEl.object3D.quaternion); quaternion.premultiply(el.object3D.quaternion); dVelocity.applyQuaternion(quaternion); var factor = dVelocity.length(); if (data.fly) { velocity.copy(dVelocity); velocity.multiplyScalar(this.data.speed * 16.66667); } else { vector2.set(dVelocity.x, dVelocity.z); vector2.setLength(factor * this.data.speed * 16.66667); velocity.x = vector2.x; velocity.z = vector2.y; } } }; }() }); },{}],10:[function(require,module,exports){ 'use strict'; /** * Touch-to-move-forward controls for mobile. */ module.exports = AFRAME.registerComponent('touch-controls', { schema: { enabled: { default: true }, reverseEnabled: { default: true } }, init: function init() { this.dVelocity = new THREE.Vector3(); this.bindMethods(); this.direction = 0; }, play: function play() { this.addEventListeners(); }, pause: function pause() { this.removeEventListeners(); this.dVelocity.set(0, 0, 0); }, remove: function remove() { this.pause(); }, addEventListeners: function addEventListeners() { var sceneEl = this.el.sceneEl; var canvasEl = sceneEl.canvas; if (!canvasEl) { sceneEl.addEventListener('render-target-loaded', this.addEventListeners.bind(this)); return; } canvasEl.addEventListener('touchstart', this.onTouchStart); canvasEl.addEventListener('touchend', this.onTouchEnd); }, removeEventListeners: function removeEventListeners() { var canvasEl = this.el.sceneEl && this.el.sceneEl.canvas; if (!canvasEl) { return; } canvasEl.removeEventListener('touchstart', this.onTouchStart); canvasEl.removeEventListener('touchend', this.onTouchEnd); }, isVelocityActive: function isVelocityActive() { return this.data.enabled && !!this.direction; }, getVelocityDelta: function getVelocityDelta() { this.dVelocity.z = this.direction; return this.dVelocity.clone(); }, bindMethods: function bindMethods() { this.onTouchStart = this.onTouchStart.bind(this); this.onTouchEnd = this.onTouchEnd.bind(this); }, onTouchStart: function onTouchStart(e) { this.direction = -1; if (this.data.reverseEnabled && e.touches.length === 2) { this.direction = 1; } e.preventDefault(); }, onTouchEnd: function onTouchEnd(e) { this.direction = 0; e.preventDefault(); } }); },{}],11:[function(require,module,exports){ 'use strict'; /** * 3dof (Gear VR, Daydream) controls for mobile. */ module.exports = AFRAME.registerComponent('trackpad-controls', { schema: { enabled: { default: true }, enableNegX: { default: true }, enablePosX: { default: true }, enableNegZ: { default: true }, enablePosZ: { default: true }, mode: { default: 'touch', oneOf: ['swipe', 'touch', 'press'] } }, init: function init() { this.dVelocity = new THREE.Vector3(); this.zVel = 0; this.xVel = 0; this.bindMethods(); }, play: function play() { this.addEventListeners(); }, pause: function pause() { this.removeEventListeners(); this.dVelocity.set(0, 0, 0); }, remove: function remove() { this.pause(); }, addEventListeners: function addEventListeners() { var data = this.data; var sceneEl = this.el.sceneEl; sceneEl.addEventListener('axismove', this.onAxisMove); switch (data.mode) { case 'swipe': case 'touch': sceneEl.addEventListener('trackpadtouchstart', this.onTouchStart); sceneEl.addEventListener('trackpadtouchend', this.onTouchEnd); break; case 'press': sceneEl.addEventListener('trackpaddown', this.onTouchStart); sceneEl.addEventListener('trackpadup', this.onTouchEnd); break; } }, removeEventListeners: function removeEventListeners() { var sceneEl = this.el.sceneEl; sceneEl.removeEventListener('axismove', this.onAxisMove); sceneEl.removeEventListener('trackpadtouchstart', this.onTouchStart); sceneEl.removeEventListener('trackpadtouchend', this.onTouchEnd); sceneEl.removeEventListener('trackpaddown', this.onTouchStart); sceneEl.removeEventListener('trackpadup', this.onTouchEnd); }, isVelocityActive: function isVelocityActive() { return this.data.enabled && this.isMoving; }, getVelocityDelta: function getVelocityDelta() { this.dVelocity.z = this.isMoving ? -this.zVel : 1; this.dVelocity.x = this.isMoving ? this.xVel : 1; return this.dVelocity.clone(); }, bindMethods: function bindMethods() { this.onTouchStart = this.onTouchStart.bind(this); this.onTouchEnd = this.onTouchEnd.bind(this); this.onAxisMove = this.onAxisMove.bind(this); }, onTouchStart: function onTouchStart(e) { switch (this.data.mode) { case 'swipe': this.canRecordAxis = true; this.startingAxisData = []; break; case 'touch': this.isMoving = true; break; case 'press': this.isMoving = true; break; } e.preventDefault(); }, onTouchEnd: function onTouchEnd(e) { if (this.data.mode == 'swipe') { this.startingAxisData = []; } this.isMoving = false; e.preventDefault(); }, onAxisMove: function onAxisMove(e) { switch (this.data.mode) { case 'swipe': return this.handleSwipeAxis(e); case 'touch': case 'press': return this.handleTouchAxis(e); } }, handleSwipeAxis: function handleSwipeAxis(e) { var data = this.data; var axisData = e.detail.axis; if (this.startingAxisData.length === 0 && this.canRecordAxis) { this.canRecordAxis = false; this.startingAxisData[0] = axisData[0]; this.startingAxisData[1] = axisData[1]; } if (this.startingAxisData.length > 0) { var velX = 0; var velZ = 0; if (data.enableNegX && axisData[0] < this.startingAxisData[0]) { velX = -1; } if (data.enablePosX && axisData[0] > this.startingAxisData[0]) { velX = 1; } if (data.enablePosZ && axisData[1] > this.startingAxisData[1]) { velZ = -1; } if (data.enableNegZ && axisData[1] < this.startingAxisData[1]) { velZ = 1; } var absChangeZ = Math.abs(this.startingAxisData[1] - axisData[1]); var absChangeX = Math.abs(this.startingAxisData[0] - axisData[0]); if (absChangeX > absChangeZ) { this.zVel = 0; this.xVel = velX; this.isMoving = true; } else { this.xVel = 0; this.zVel = velZ; this.isMoving = true; } } }, handleTouchAxis: function handleTouchAxis(e) { var data = this.data; var axisData = e.detail.axis; var velX = 0; var velZ = 0; if (data.enableNegX && axisData[0] < 0) { velX = -1; } if (data.enablePosX && axisData[0] > 0) { velX = 1; } if (data.enablePosZ && axisData[1] > 0) { velZ = -1; } if (data.enableNegZ && axisData[1] < 0) { velZ = 1; } if (Math.abs(axisData[0]) > Math.abs(axisData[1])) { this.zVel = 0; this.xVel = velX; } else { this.xVel = 0; this.zVel = velZ; } } }); },{}]},{},[1]);