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- (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<r.length;o++)s(r[o]);return s})({1:[function(require,module,exports){
- 'use strict';
- require('./src/misc');
- },{"./src/misc":5}],2:[function(require,module,exports){
- 'use strict';
- module.exports = AFRAME.registerComponent('checkpoint', {
- schema: {
- offset: { default: { x: 0, y: 0, z: 0 }, type: 'vec3' }
- },
- init: function init() {
- this.active = false;
- this.targetEl = null;
- this.fire = this.fire.bind(this);
- this.offset = new THREE.Vector3();
- },
- update: function update() {
- this.offset.copy(this.data.offset);
- },
- play: function play() {
- this.el.addEventListener('click', this.fire);
- },
- pause: function pause() {
- this.el.removeEventListener('click', this.fire);
- },
- remove: function remove() {
- this.pause();
- },
- fire: function fire() {
- var targetEl = this.el.sceneEl.querySelector('[checkpoint-controls]');
- if (!targetEl) {
- throw new Error('No `checkpoint-controls` component found.');
- }
- targetEl.components['checkpoint-controls'].setCheckpoint(this.el);
- },
- getOffset: function getOffset() {
- return this.offset.copy(this.data.offset);
- }
- });
- },{}],3:[function(require,module,exports){
- 'use strict';
- /**
- * @param {Array<THREE.Material>|THREE.Material} material
- * @return {Array<THREE.Material>}
- */
- function ensureMaterialArray(material) {
- if (!material) {
- return [];
- } else if (Array.isArray(material)) {
- return material;
- } else if (material.materials) {
- return material.materials;
- } else {
- return [material];
- }
- }
- /**
- * @param {THREE.Object3D} mesh
- * @param {Array<string>} materialNames
- * @param {THREE.Texture} envMap
- * @param {number} reflectivity [description]
- */
- function applyEnvMap(mesh, materialNames, envMap, reflectivity) {
- if (!mesh) return;
- materialNames = materialNames || [];
- mesh.traverse(function (node) {
- if (!node.isMesh) return;
- var meshMaterials = ensureMaterialArray(node.material);
- meshMaterials.forEach(function (material) {
- if (material && !('envMap' in material)) return;
- if (materialNames.length && materialNames.indexOf(material.name) === -1) return;
- material.envMap = envMap;
- material.reflectivity = reflectivity;
- material.needsUpdate = true;
- });
- });
- }
- /**
- * Specifies an envMap on an entity, without replacing any existing material
- * properties.
- */
- module.exports = AFRAME.registerComponent('cube-env-map', {
- multiple: true,
- schema: {
- path: { default: '' },
- extension: { default: 'jpg', oneOf: ['jpg', 'png'] },
- format: { default: 'RGBFormat', oneOf: ['RGBFormat', 'RGBAFormat'] },
- enableBackground: { default: false },
- reflectivity: { default: 1, min: 0, max: 1 },
- materials: { default: [] }
- },
- init: function init() {
- var _this = this;
- var data = this.data;
- this.texture = new THREE.CubeTextureLoader().load([data.path + 'posx.' + data.extension, data.path + 'negx.' + data.extension, data.path + 'posy.' + data.extension, data.path + 'negy.' + data.extension, data.path + 'posz.' + data.extension, data.path + 'negz.' + data.extension]);
- this.texture.format = THREE[data.format];
- this.object3dsetHandler = function () {
- var mesh = _this.el.getObject3D('mesh');
- var data = _this.data;
- applyEnvMap(mesh, data.materials, _this.texture, data.reflectivity);
- };
- this.el.addEventListener('object3dset', this.object3dsetHandler);
- },
- update: function update(oldData) {
- var data = this.data;
- var mesh = this.el.getObject3D('mesh');
- var addedMaterialNames = [];
- var removedMaterialNames = [];
- if (data.materials.length) {
- if (oldData.materials) {
- addedMaterialNames = data.materials.filter(function (name) {
- return !oldData.materials.includes(name);
- });
- removedMaterialNames = oldData.materials.filter(function (name) {
- return !data.materials.includes(name);
- });
- } else {
- addedMaterialNames = data.materials;
- }
- }
- if (addedMaterialNames.length) {
- applyEnvMap(mesh, addedMaterialNames, this.texture, data.reflectivity);
- }
- if (removedMaterialNames.length) {
- applyEnvMap(mesh, removedMaterialNames, null, 1);
- }
- if (oldData.materials && data.reflectivity !== oldData.reflectivity) {
- var maintainedMaterialNames = data.materials.filter(function (name) {
- return oldData.materials.includes(name);
- });
- if (maintainedMaterialNames.length) {
- applyEnvMap(mesh, maintainedMaterialNames, this.texture, data.reflectivity);
- }
- }
- if (this.data.enableBackground && !oldData.enableBackground) {
- this.setBackground(this.texture);
- } else if (!this.data.enableBackground && oldData.enableBackground) {
- this.setBackground(null);
- }
- },
- remove: function remove() {
- this.el.removeEventListener('object3dset', this.object3dsetHandler);
- var mesh = this.el.getObject3D('mesh');
- var data = this.data;
- applyEnvMap(mesh, data.materials, null, 1);
- if (data.enableBackground) this.setBackground(null);
- },
- setBackground: function setBackground(texture) {
- this.el.sceneEl.object3D.background = texture;
- }
- });
- },{}],4:[function(require,module,exports){
- 'use strict';
- /* global CANNON */
- /**
- * Based on aframe/examples/showcase/tracked-controls.
- *
- * Handles events coming from the hand-controls.
- * Determines if the entity is grabbed or released.
- * Updates its position to move along the controller.
- */
- module.exports = AFRAME.registerComponent('grab', {
- init: function init() {
- this.system = this.el.sceneEl.systems.physics;
- this.GRABBED_STATE = 'grabbed';
- this.grabbing = false;
- this.hitEl = /** @type {AFRAME.Element} */null;
- this.physics = /** @type {AFRAME.System} */this.el.sceneEl.systems.physics;
- this.constraint = /** @type {CANNON.Constraint} */null;
- // Bind event handlers
- this.onHit = this.onHit.bind(this);
- this.onGripOpen = this.onGripOpen.bind(this);
- this.onGripClose = this.onGripClose.bind(this);
- },
- play: function play() {
- var el = this.el;
- el.addEventListener('hit', this.onHit);
- el.addEventListener('gripdown', this.onGripClose);
- el.addEventListener('gripup', this.onGripOpen);
- el.addEventListener('trackpaddown', this.onGripClose);
- el.addEventListener('trackpadup', this.onGripOpen);
- el.addEventListener('triggerdown', this.onGripClose);
- el.addEventListener('triggerup', this.onGripOpen);
- },
- pause: function pause() {
- var el = this.el;
- el.removeEventListener('hit', this.onHit);
- el.removeEventListener('gripdown', this.onGripClose);
- el.removeEventListener('gripup', this.onGripOpen);
- el.removeEventListener('trackpaddown', this.onGripClose);
- el.removeEventListener('trackpadup', this.onGripOpen);
- el.removeEventListener('triggerdown', this.onGripClose);
- el.removeEventListener('triggerup', this.onGripOpen);
- },
- onGripClose: function onGripClose() {
- this.grabbing = true;
- },
- onGripOpen: function onGripOpen() {
- var hitEl = this.hitEl;
- this.grabbing = false;
- if (!hitEl) {
- return;
- }
- hitEl.removeState(this.GRABBED_STATE);
- this.hitEl = undefined;
- this.system.removeConstraint(this.constraint);
- this.constraint = null;
- },
- onHit: function onHit(evt) {
- var hitEl = evt.detail.el;
- // If the element is already grabbed (it could be grabbed by another controller).
- // If the hand is not grabbing the element does not stick.
- // If we're already grabbing something you can't grab again.
- if (!hitEl || hitEl.is(this.GRABBED_STATE) || !this.grabbing || this.hitEl) {
- return;
- }
- hitEl.addState(this.GRABBED_STATE);
- this.hitEl = hitEl;
- this.constraint = new CANNON.LockConstraint(this.el.body, hitEl.body);
- this.system.addConstraint(this.constraint);
- }
- });
- },{}],5:[function(require,module,exports){
- 'use strict';
- require('./checkpoint');
- require('./cube-env-map');
- require('./grab');
- require('./jump-ability');
- require('./kinematic-body');
- require('./mesh-smooth');
- require('./normal-material');
- require('./sphere-collider');
- },{"./checkpoint":2,"./cube-env-map":3,"./grab":4,"./jump-ability":6,"./kinematic-body":7,"./mesh-smooth":8,"./normal-material":9,"./sphere-collider":10}],6:[function(require,module,exports){
- 'use strict';
- var ACCEL_G = -9.8,
- // m/s^2
- EASING = -15; // m/s^2
- /**
- * Jump ability.
- */
- module.exports = AFRAME.registerComponent('jump-ability', {
- dependencies: ['velocity'],
- /* Schema
- ——————————————————————————————————————————————*/
- schema: {
- on: { default: 'keydown:Space gamepadbuttondown:0' },
- playerHeight: { default: 1.764 },
- maxJumps: { default: 1 },
- distance: { default: 5 },
- debug: { default: false }
- },
- init: function init() {
- this.velocity = 0;
- this.numJumps = 0;
- var beginJump = this.beginJump.bind(this),
- events = this.data.on.split(' ');
- this.bindings = {};
- for (var i = 0; i < events.length; i++) {
- this.bindings[events[i]] = beginJump;
- this.el.addEventListener(events[i], beginJump);
- }
- this.bindings.collide = this.onCollide.bind(this);
- this.el.addEventListener('collide', this.bindings.collide);
- },
- remove: function remove() {
- for (var event in this.bindings) {
- if (this.bindings.hasOwnProperty(event)) {
- this.el.removeEventListener(event, this.bindings[event]);
- delete this.bindings[event];
- }
- }
- this.el.removeEventListener('collide', this.bindings.collide);
- delete this.bindings.collide;
- },
- beginJump: function beginJump() {
- if (this.numJumps < this.data.maxJumps) {
- var data = this.data,
- initialVelocity = Math.sqrt(-2 * data.distance * (ACCEL_G + EASING)),
- v = this.el.getAttribute('velocity');
- this.el.setAttribute('velocity', { x: v.x, y: initialVelocity, z: v.z });
- this.numJumps++;
- this.el.emit('jumpstart');
- }
- },
- onCollide: function onCollide() {
- if (this.numJumps > 0) this.el.emit('jumpend');
- this.numJumps = 0;
- }
- });
- },{}],7:[function(require,module,exports){
- 'use strict';
- /* global CANNON */
- /**
- * Kinematic body.
- *
- * Managed dynamic body, which moves but is not affected (directly) by the
- * physics engine. This is not a true kinematic body, in the sense that we are
- * letting the physics engine _compute_ collisions against it and selectively
- * applying those collisions to the object. The physics engine does not decide
- * the position/velocity/rotation of the element.
- *
- * Used for the camera object, because full physics simulation would create
- * movement that feels unnatural to the player. Bipedal movement does not
- * translate nicely to rigid body physics.
- *
- * See: http://www.learn-cocos2d.com/2013/08/physics-engine-platformer-terrible-idea/
- * And: http://oxleygamedev.blogspot.com/2011/04/player-physics-part-2.html
- */
- var EPS = 0.000001;
- module.exports = AFRAME.registerComponent('kinematic-body', {
- dependencies: ['velocity'],
- /*******************************************************************
- * Schema
- */
- schema: {
- mass: { default: 5 },
- radius: { default: 1.3 },
- userHeight: { default: 1.6 },
- linearDamping: { default: 0.05 },
- enableSlopes: { default: true }
- },
- /*******************************************************************
- * Lifecycle
- */
- init: function init() {
- this.system = this.el.sceneEl.systems.physics;
- this.system.addComponent(this);
- var el = this.el,
- data = this.data,
- position = new CANNON.Vec3().copy(el.getAttribute('position'));
- this.body = new CANNON.Body({
- material: this.system.getMaterial('staticMaterial'),
- position: position,
- mass: data.mass,
- linearDamping: data.linearDamping,
- fixedRotation: true
- });
- this.body.addShape(new CANNON.Sphere(data.radius), new CANNON.Vec3(0, data.radius - data.height, 0));
- this.body.el = this.el;
- this.el.body = this.body;
- this.system.addBody(this.body);
- if (el.hasAttribute('wasd-controls')) {
- console.warn('[kinematic-body] Not compatible with wasd-controls, use movement-controls.');
- }
- },
- remove: function remove() {
- this.system.removeBody(this.body);
- this.system.removeComponent(this);
- delete this.el.body;
- },
- /*******************************************************************
- * Update
- */
- /**
- * Checks CANNON.World for collisions and attempts to apply them to the
- * element automatically, in a player-friendly way.
- *
- * There's extra logic for horizontal surfaces here. The basic requirements:
- * (1) Only apply gravity when not in contact with _any_ horizontal surface.
- * (2) When moving, project the velocity against exactly one ground surface.
- * If in contact with two ground surfaces (e.g. ground + ramp), choose
- * the one that collides with current velocity, if any.
- */
- beforeStep: function beforeStep(t, dt) {
- if (!dt) return;
- var el = this.el;
- var body = this.body;
- body.velocity.copy(el.getAttribute('velocity'));
- body.position.copy(el.getAttribute('position'));
- body.position.y += this.data.userHeight;
- },
- step: function () {
- var velocity = new THREE.Vector3(),
- normalizedVelocity = new THREE.Vector3(),
- currentSurfaceNormal = new THREE.Vector3(),
- groundNormal = new THREE.Vector3();
- return function (t, dt) {
- if (!dt) return;
- var body = this.body,
- data = this.data,
- didCollide = false,
- height = void 0,
- groundHeight = -Infinity,
- groundBody = void 0,
- contacts = this.system.getContacts();
- dt = Math.min(dt, this.system.data.maxInterval * 1000);
- groundNormal.set(0, 0, 0);
- velocity.copy(this.el.getAttribute('velocity'));
- body.velocity.copy(velocity);
- for (var i = 0, contact; contact = contacts[i]; i++) {
- // 1. Find any collisions involving this element. Get the contact
- // normal, and make sure it's oriented _out_ of the other object and
- // enabled (body.collisionReponse is true for both bodies)
- if (!contact.enabled) {
- continue;
- }
- if (body.id === contact.bi.id) {
- contact.ni.negate(currentSurfaceNormal);
- } else if (body.id === contact.bj.id) {
- currentSurfaceNormal.copy(contact.ni);
- } else {
- continue;
- }
- didCollide = body.velocity.dot(currentSurfaceNormal) < -EPS;
- if (didCollide && currentSurfaceNormal.y <= 0.5) {
- // 2. If current trajectory attempts to move _through_ another
- // object, project the velocity against the collision plane to
- // prevent passing through.
- velocity = velocity.projectOnPlane(currentSurfaceNormal);
- } else if (currentSurfaceNormal.y > 0.5) {
- // 3. If in contact with something roughly horizontal (+/- 45º) then
- // consider that the current ground. Only the highest qualifying
- // ground is retained.
- height = body.id === contact.bi.id ? Math.abs(contact.rj.y + contact.bj.position.y) : Math.abs(contact.ri.y + contact.bi.position.y);
- if (height > groundHeight) {
- groundHeight = height;
- groundNormal.copy(currentSurfaceNormal);
- groundBody = body.id === contact.bi.id ? contact.bj : contact.bi;
- }
- }
- }
- normalizedVelocity.copy(velocity).normalize();
- if (groundBody && normalizedVelocity.y < 0.5) {
- if (!data.enableSlopes) {
- groundNormal.set(0, 1, 0);
- } else if (groundNormal.y < 1 - EPS) {
- groundNormal.copy(this.raycastToGround(groundBody, groundNormal));
- }
- // 4. Project trajectory onto the top-most ground object, unless
- // trajectory is > 45º.
- velocity = velocity.projectOnPlane(groundNormal);
- } else if (this.system.driver.world) {
- // 5. If not in contact with anything horizontal, apply world gravity.
- // TODO - Why is the 4x scalar necessary.
- // NOTE: Does not work if physics runs on a worker.
- velocity.add(this.system.driver.world.gravity.scale(dt * 4.0 / 1000));
- }
- // 6. If the ground surface has a velocity, apply it directly to current
- // position, not velocity, to preserve relative velocity.
- if (groundBody && groundBody.el && groundBody.el.components.velocity) {
- var groundVelocity = groundBody.el.getAttribute('velocity');
- body.position.copy({
- x: body.position.x + groundVelocity.x * dt / 1000,
- y: body.position.y + groundVelocity.y * dt / 1000,
- z: body.position.z + groundVelocity.z * dt / 1000
- });
- }
- body.velocity.copy(velocity);
- body.position.y -= data.userHeight;
- this.el.setAttribute('velocity', body.velocity);
- this.el.setAttribute('position', body.position);
- };
- }(),
- /**
- * When walking on complex surfaces (trimeshes, borders between two shapes),
- * the collision normals returned for the player sphere can be very
- * inconsistent. To address this, raycast straight down, find the collision
- * normal, and return whichever normal is more vertical.
- * @param {CANNON.Body} groundBody
- * @param {CANNON.Vec3} groundNormal
- * @return {CANNON.Vec3}
- */
- raycastToGround: function raycastToGround(groundBody, groundNormal) {
- var ray = void 0,
- hitNormal = void 0,
- vFrom = this.body.position,
- vTo = this.body.position.clone();
- vTo.y -= this.data.height;
- ray = new CANNON.Ray(vFrom, vTo);
- ray._updateDirection(); // TODO - Report bug.
- ray.intersectBody(groundBody);
- if (!ray.hasHit) return groundNormal;
- // Compare ABS, in case we're projecting against the inside of the face.
- hitNormal = ray.result.hitNormalWorld;
- return Math.abs(hitNormal.y) > Math.abs(groundNormal.y) ? hitNormal : groundNormal;
- }
- });
- },{}],8:[function(require,module,exports){
- 'use strict';
- /**
- * Apply this component to models that looks "blocky", to have Three.js compute
- * vertex normals on the fly for a "smoother" look.
- */
- module.exports = AFRAME.registerComponent('mesh-smooth', {
- init: function init() {
- this.el.addEventListener('model-loaded', function (e) {
- e.detail.model.traverse(function (node) {
- if (node.isMesh) node.geometry.computeVertexNormals();
- });
- });
- }
- });
- },{}],9:[function(require,module,exports){
- 'use strict';
- /**
- * Recursively applies a MeshNormalMaterial to the entity, such that
- * face colors are determined by their orientation. Helpful for
- * debugging geometry
- */
- module.exports = AFRAME.registerComponent('normal-material', {
- init: function init() {
- this.material = new THREE.MeshNormalMaterial({ flatShading: true });
- this.applyMaterial = this.applyMaterial.bind(this);
- this.el.addEventListener('object3dset', this.applyMaterial);
- },
- remove: function remove() {
- this.el.removeEventListener('object3dset', this.applyMaterial);
- },
- applyMaterial: function applyMaterial() {
- var _this = this;
- this.el.object3D.traverse(function (node) {
- if (node.isMesh) node.material = _this.material;
- });
- }
- });
- },{}],10:[function(require,module,exports){
- 'use strict';
- /**
- * Based on aframe/examples/showcase/tracked-controls.
- *
- * Implement bounding sphere collision detection for entities with a mesh.
- * Sets the specified state on the intersected entities.
- *
- * @property {string} objects - Selector of the entities to test for collision.
- * @property {string} state - State to set on collided entities.
- *
- */
- module.exports = AFRAME.registerComponent('sphere-collider', {
- schema: {
- objects: { default: '' },
- state: { default: 'collided' },
- radius: { default: 0.05 },
- watch: { default: true }
- },
- init: function init() {
- /** @type {MutationObserver} */
- this.observer = null;
- /** @type {Array<Element>} Elements to watch for collisions. */
- this.els = [];
- /** @type {Array<Element>} Elements currently in collision state. */
- this.collisions = [];
- this.handleHit = this.handleHit.bind(this);
- this.handleHitEnd = this.handleHitEnd.bind(this);
- },
- remove: function remove() {
- this.pause();
- },
- play: function play() {
- var sceneEl = this.el.sceneEl;
- if (this.data.watch) {
- this.observer = new MutationObserver(this.update.bind(this, null));
- this.observer.observe(sceneEl, { childList: true, subtree: true });
- }
- },
- pause: function pause() {
- if (this.observer) {
- this.observer.disconnect();
- this.observer = null;
- }
- },
- /**
- * Update list of entities to test for collision.
- */
- update: function update() {
- var data = this.data;
- var objectEls = void 0;
- // Push entities into list of els to intersect.
- if (data.objects) {
- objectEls = this.el.sceneEl.querySelectorAll(data.objects);
- } else {
- // If objects not defined, intersect with everything.
- objectEls = this.el.sceneEl.children;
- }
- // Convert from NodeList to Array
- this.els = Array.prototype.slice.call(objectEls);
- },
- tick: function () {
- var position = new THREE.Vector3(),
- meshPosition = new THREE.Vector3(),
- colliderScale = new THREE.Vector3(),
- distanceMap = new Map();
- return function () {
- var el = this.el,
- data = this.data,
- mesh = el.getObject3D('mesh'),
- collisions = [];
- var colliderRadius = void 0;
- if (!mesh) {
- return;
- }
- distanceMap.clear();
- position.copy(el.object3D.getWorldPosition());
- el.object3D.getWorldScale(colliderScale);
- colliderRadius = data.radius * scaleFactor(colliderScale);
- // Update collision list.
- this.els.forEach(intersect);
- // Emit events and add collision states, in order of distance.
- collisions.sort(function (a, b) {
- return distanceMap.get(a) > distanceMap.get(b) ? 1 : -1;
- }).forEach(this.handleHit);
- // Remove collision state from current element.
- if (collisions.length === 0) {
- el.emit('hit', { el: null });
- }
- // Remove collision state from other elements.
- this.collisions.filter(function (el) {
- return !distanceMap.has(el);
- }).forEach(this.handleHitEnd);
- // Store new collisions
- this.collisions = collisions;
- // Bounding sphere collision detection
- function intersect(el) {
- var radius = void 0,
- mesh = void 0,
- distance = void 0,
- box = void 0,
- extent = void 0,
- size = void 0;
- if (!el.isEntity) {
- return;
- }
- mesh = el.getObject3D('mesh');
- if (!mesh) {
- return;
- }
- box = new THREE.Box3().setFromObject(mesh);
- size = box.getSize();
- extent = Math.max(size.x, size.y, size.z) / 2;
- radius = Math.sqrt(2 * extent * extent);
- box.getCenter(meshPosition);
- if (!radius) {
- return;
- }
- distance = position.distanceTo(meshPosition);
- if (distance < radius + colliderRadius) {
- collisions.push(el);
- distanceMap.set(el, distance);
- }
- }
- // use max of scale factors to maintain bounding sphere collision
- function scaleFactor(scaleVec) {
- return Math.max.apply(null, scaleVec.toArray());
- }
- };
- }(),
- handleHit: function handleHit(targetEl) {
- targetEl.emit('hit');
- targetEl.addState(this.data.state);
- this.el.emit('hit', { el: targetEl });
- },
- handleHitEnd: function handleHitEnd(targetEl) {
- targetEl.emit('hitend');
- targetEl.removeState(this.data.state);
- this.el.emit('hitend', { el: targetEl });
- }
- });
- },{}]},{},[1]);
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