513 lines
12 KiB
JavaScript
513 lines
12 KiB
JavaScript
/**
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* @private
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*/
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function bisect(items, x, lo, hi) {
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var mid;
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if (typeof(lo) == 'undefined') lo = 0;
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if (typeof(hi) == 'undefined') hi = items.length;
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while (lo < hi) {
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mid = Math.floor((lo + hi) / 2);
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if (x < items[mid]) hi = mid;
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else lo = mid + 1;
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}
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return lo;
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}
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/**
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* @private
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*/
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function insort(items, x) {
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items.splice(bisect(items, x), 0, x);
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}
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/**
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* @private
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*/
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function partialSort(items, k, comparator) {
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var smallest = items.slice(0, k).sort(),
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max = smallest[k-1];
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for (var i = k, len = items.length; i < len; ++i) {
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var item = items[i];
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var cond = comparator === undefined ? item < max : comparator(item, max) < 0;
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if (cond) {
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insort(smallest, item);
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smallest.length = k;
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max = smallest[k-1];
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}
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}
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return smallest;
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}
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/**
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* A class that streams easily a mesh via socket.io
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* @memberOf geo
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* @constructor
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* @param {string} path to the mesh
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*/
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geo.MeshStreamer = function(path) {
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/**
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* array of array telling if the jth face of the ith mesh has already been sent
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*
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* For each mesh, there is an object containing
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* <ul>
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* <li>`counter` : the number of faces currently sent</li>
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* <li>`array` : an array boolean telling if the ith face has already been sent</li>
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* </ul>
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* @type {Object[]}
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*/
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this.meshFaces = [];
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/**
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* array of booleans telling if the ith vertex has already been sent
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* @type {Boolean[]}
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*/
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this.vertices = [];
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/**
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* array of booleans telling if the ith face has already been sent
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* @type {Boolean[]}
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*/
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this.faces = [];
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/**
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* array of booleans telling if the ith normal has already been sent
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* @type {Boolean[]}
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*/
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this.normals = [];
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/**
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* array of booleans telling if the ith texCoord has already been sent
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* @type {Boolean[]}
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*/
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this.texCoords = [];
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/**
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* Number of element to send by packet
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* @type {Number}
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*/
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this.chunk = 1000;
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if (path !== undefined) {
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this.mesh = geo.availableMeshes[path];
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}
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};
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/**
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* Compute a function that can compare two faces
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* @param {Camera} camera a camera seeing or not face
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* @returns the function that compares two faces : the higher face is the most interesting for the camera
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*/
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geo.MeshStreamer.prototype.faceComparator = function(camera) {
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var self = this;
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var direction = {
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x: camera.target.x - camera.position.x,
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y: camera.target.y - camera.position.y,
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z: camera.target.z - camera.position.z
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};
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var norm = Math.sqrt(direction.x * direction.x + direction.y * direction.y + direction.z * direction.z);
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direction.x /= norm;
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direction.y /= norm;
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direction.z /= norm;
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return function(face1, face2) {
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var center1 = {
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x: (self.vertices[face1.a].x + self.vertices[face1.b].x + self.vertices[face1.b].x) / 3,
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y: (self.vertices[face1.a].y + self.vertices[face1.b].y + self.vertices[face1.b].y) / 3,
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z: (self.vertices[face1.a].z + self.vertices[face1.b].z + self.vertices[face1.b].z) / 3
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};
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var dir1 = {
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x: center1.x - camera.position.x,
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y: center1.y - camera.position.y,
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z: center1.z - camera.position.z
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};
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var norm1 = Math.sqrt(dir1.x * dir1.x + dir1.y * dir1.y + dir1.z + dir1.z);
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dir1.x /= norm1;
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dir1.y /= norm1;
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dir1.z /= norm1;
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var dot1 = direction.x * dir1.x + direction.y * dir1.y + direction.z * dir1.z;
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var center2 = {
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x: (self.vertices[face2.a].x + self.vertices[face2.b].x + self.vertices[face2.b].x) / 3,
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y: (self.vertices[face2.a].y + self.vertices[face2.b].y + self.vertices[face2.b].y) / 3,
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z: (self.vertices[face2.a].z + self.vertices[face2.b].z + self.vertices[face2.b].z) / 3
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};
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var dir2 = {
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x: center2.x - camera.position.x,
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y: center2.y - camera.position.y,
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z: center2.z - camera.position.z
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};
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var norm2 = Math.sqrt(dir2.x * dir2.x + dir2.y * dir2.y + dir2.z + dir2.z);
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dir2.x /= norm2;
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dir2.y /= norm2;
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dir2.z /= norm2;
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var dot2 = direction.x * dir2.x + direction.y * dir2.y + direction.z * dir2.z;
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// Decreasing order
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if (dot1 > dot2) {
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return -1;
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}
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if (dot1 < dot2) {
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return 1;
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}
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return 0;
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};
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};
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/**
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* Initialize the socket.io callback
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* @param {socket} socket the socket to initialize
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*/
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geo.MeshStreamer.prototype.start = function(socket) {
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this.meshIndex = 0;
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this.socket = socket;
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var self = this;
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socket.on('request', function(path) {
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self.mesh = geo.availableMeshes[path];
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self.meshFaces = new Array(self.mesh.meshes.length);
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for (var i = 0; i < self.meshFaces.length; i++) {
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self.meshFaces[i] = {
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counter: 0,
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array: new Array(self.mesh.meshes[i].faces.length)
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};
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}
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var regex = /.*\.\..*/;
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var filePath = path.substring(1, path.length);
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if (regex.test(filePath)) {
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socket.emit('refused');
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socket.disconnect();
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return;
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}
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socket.emit('ok');
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});
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socket.on('materials', function() {
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var data = self.nextMaterials();
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socket.emit('elements', data);
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});
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socket.on('next', function(camera) {
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// Send next elements
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var next = self.nextElements(camera);
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if (next.data.length === 0) {
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// If nothing, just serve stuff
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var tmp = self.nextElements(camera, true);
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next.data = tmp.data;
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}
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socket.emit('elements', next.data);
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if (next.finished) {
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socket.disconnect();
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}
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});
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};
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/**
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* Prepare the array of materials
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* @return array the array to send with all materials of the current mesh
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*/
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geo.MeshStreamer.prototype.nextMaterials = function() {
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var data = [];
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data.push(['g', this.mesh.numberOfFaces]);
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for (var i = 0; i < this.mesh.meshes.length; i++) {
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var currentMesh = this.mesh.meshes[i];
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// Send usemtl
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data.push([
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'u',
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currentMesh.material,
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currentMesh.vertices.length,
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currentMesh.faces.length,
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this.mesh.texCoords.length > 0,
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this.mesh.normals.length > 0
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]);
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}
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return data;
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};
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/**
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* Prepare the next elements
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* @param {camera} _camera a camera that can be usefull to do smart streaming (stream
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* only interesting parts according to the camera
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* @returns {array} an array of elements ready to send
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*/
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geo.MeshStreamer.prototype.nextElements = function(_camera, force) {
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var i;
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if (force === undefined) {
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force = false;
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}
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// Prepare camera (and scale to model)
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var camera = null;
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var planes = [];
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var direction;
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if (_camera !== null) {
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camera = {
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position: {
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x: _camera[0][0],
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y: _camera[0][1],
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z: _camera[0][2]
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},
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target: {
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x: _camera[1][0],
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y: _camera[1][1],
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z: _camera[1][2]
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}
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};
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for (i = 2; i < _camera.length; i++) {
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planes.push({
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normal: {
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x: _camera[i][0],
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y: _camera[i][1],
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z: _camera[i][2]
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},
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constant: _camera[i][3]
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});
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}
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// Compute camera direction
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direction = {
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x: camera.target.x - camera.position.x,
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y: camera.target.y - camera.position.y,
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z: camera.target.z - camera.position.z
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};
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}
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var sent = 0;
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var data = [];
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// Sort faces
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var mightBeCompletetlyFinished = true;
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for (var meshIndex = 0; meshIndex < this.mesh.meshes.length; meshIndex++) {
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var currentMesh = this.mesh.meshes[meshIndex];
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if (this.isFinished(meshIndex)) {
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continue;
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} else {
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mightBeCompletetlyFinished = false;
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}
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for (var faceIndex = 0; faceIndex < currentMesh.faces.length; faceIndex++) {
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var currentFace = currentMesh.faces[faceIndex];
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if (this.meshFaces[meshIndex].array[faceIndex] === true) {
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continue;
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}
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var vertex1 = this.mesh.vertices[currentFace.a];
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var vertex2 = this.mesh.vertices[currentFace.b];
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var vertex3 = this.mesh.vertices[currentFace.c];
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if (!force) {
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var exitToContinue = false;
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threeVertices = [vertex1, vertex2, vertex3];
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for (i = 0; i < threeVertices.length; i++) {
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var vertex = threeVertices[i];
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for (var j = 0; j < planes.length; j++) {
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var plane = planes[j];
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distance =
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plane.normal.x * vertex.x +
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plane.normal.y * vertex.y +
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plane.normal.z * vertex.z +
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plane.constant;
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if (distance < 0)
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{
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exitToContinue = true;
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break;
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}
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}
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if (exitToContinue)
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break;
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}
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if (exitToContinue)
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continue;
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}
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if (!this.vertices[currentFace.a]) {
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data.push(vertex1.toList());
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this.vertices[currentFace.a] = true;
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sent++;
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}
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if (!this.vertices[currentFace.b]) {
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data.push(vertex2.toList());
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this.vertices[currentFace.b] = true;
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sent++;
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}
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if (!this.vertices[currentFace.c]) {
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data.push(vertex3.toList());
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this.vertices[currentFace.c] = true;
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sent++;
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}
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var normal1 = this.mesh.normals[currentFace.aNormal];
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var normal2 = this.mesh.normals[currentFace.bNormal];
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var normal3 = this.mesh.normals[currentFace.cNormal];
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if (normal1 !== undefined && !this.normals[currentFace.aNormal]) {
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data.push(normal1.toList());
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this.normals[currentFace.aNormal] = true;
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sent++;
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}
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if (normal2 !== undefined && !this.normals[currentFace.bNormal]) {
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data.push(normal2.toList());
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this.normals[currentFace.bNormal] = true;
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sent++;
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}
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if (normal3 !== undefined && !this.normals[currentFace.cNormal]) {
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data.push(normal3.toList());
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this.normals[currentFace.cNormal] = true;
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sent++;
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}
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var tex1 = this.mesh.texCoords[currentFace.aTexture];
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var tex2 = this.mesh.texCoords[currentFace.bTexture];
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var tex3 = this.mesh.texCoords[currentFace.cTexture];
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if (tex1 !== undefined && !this.texCoords[currentFace.aTexture]) {
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data.push(tex1.toList());
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this.texCoords[currentFace.aTexture] = true;
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sent++;
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}
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if (tex2 !== undefined && !this.texCoords[currentFace.bTexture]) {
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data.push(tex2.toList());
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this.texCoords[currentFace.bTexture] = true;
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sent++;
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}
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if (tex3 !== undefined && !this.texCoords[currentFace.cTexture]) {
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data.push(tex3.toList());
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this.texCoords[currentFace.cTexture] = true;
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sent++;
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}
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data.push(currentFace.toList());
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// this.meshFaces[meshIndex] = this.meshFaces[meshIndex] || [];
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this.meshFaces[meshIndex].array[faceIndex] = true;
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this.meshFaces[meshIndex].counter++;
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currentMesh.faceIndex++;
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sent++;
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if (sent > 500) {
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return {data: data, finished: false};
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}
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}
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}
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return {data: data, finished: mightBeCompletetlyFinished};
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};
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geo.MeshStreamer.prototype.isFinished = function(i) {
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return this.meshFaces[i].counter === this.meshFaces[i].array.length;
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};
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