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cesium

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CesiumJS is a JavaScript library for creating 3D globes and 2D maps in a web browser without a plugin.

cesium.com/cesiumjs/

CesiumGS/cesium

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import Uri from '../ThirdParty/Uri.js'; import when from '../ThirdParty/when.js'; import Check from './Check.js'; import defaultValue from './defaultValue.js'; import defined from './defined.js'; import Event from './Event.js'; import Heap from './Heap.js'; import isBlobUri from './isBlobUri.js'; import isDataUri from './isDataUri.js'; import RequestState from './RequestState.js'; function sortRequests(a, b) { return a.priority - b.priority; } var statistics = { numberOfAttemptedRequests : 0, numberOfActiveRequests : 0, numberOfCancelledRequests : 0, numberOfCancelledActiveRequests : 0, numberOfFailedRequests : 0, numberOfActiveRequestsEver : 0, lastNumberOfActiveRequests : 0 }; var priorityHeapLength = 20; var requestHeap = new Heap({ comparator : sortRequests }); requestHeap.maximumLength = priorityHeapLength; requestHeap.reserve(priorityHeapLength); var activeRequests = []; var numberOfActiveRequestsByServer = {}; var pageUri = typeof document !== 'undefined' ? new Uri(document.location.href) : new Uri(); var requestCompletedEvent = new Event(); /** * Tracks the number of active requests and prioritizes incoming requests. * * @exports RequestScheduler * * @private */ function RequestScheduler() { } /** * The maximum number of simultaneous active requests. Un-throttled requests do not observe this limit. * @type {Number} * @default 50 */ RequestScheduler.maximumRequests = 50; /** * The maximum number of simultaneous active requests per server. Un-throttled requests or servers specifically * listed in requestsByServer do not observe this limit. * @type {Number} * @default 6 */ RequestScheduler.maximumRequestsPerServer = 6; /** * A per serverKey list of overrides to use for throttling instead of maximumRequestsPerServer */ RequestScheduler.requestsByServer = { 'api.cesium.com:443': 18, 'assets.cesium.com:443': 18 }; /** * Specifies if the request scheduler should throttle incoming requests, or let the browser queue requests under its control. * @type {Boolean} * @default true */ RequestScheduler.throttleRequests = true; /** * When true, log statistics to the console every frame * @type {Boolean} * @default false */ RequestScheduler.debugShowStatistics = false; /** * An event that's raised when a request is completed. Event handlers are passed * the error object if the request fails. * * @type {Event} * @default Event() */ RequestScheduler.requestCompletedEvent = requestCompletedEvent; Object.defineProperties(RequestScheduler, { /** * Returns the statistics used by the request scheduler. * * @memberof RequestScheduler * * @type Object * @readonly */ statistics : { get : function() { return statistics; } }, /** * The maximum size of the priority heap. This limits the number of requests that are sorted by priority. Only applies to requests that are not yet active. * * @memberof RequestScheduler * * @type {Number} * @default 20 */ priorityHeapLength : { get : function() { return priorityHeapLength; }, set : function(value) { // If the new length shrinks the heap, need to cancel some of the requests. // Since this value is not intended to be tweaked regularly it is fine to just cancel the high priority requests. if (value < priorityHeapLength) { while (requestHeap.length > value) { var request = requestHeap.pop(); cancelRequest(request); } } priorityHeapLength = value; requestHeap.maximumLength = value; requestHeap.reserve(value); } } }); function updatePriority(request) { if (defined(request.priorityFunction)) { request.priority = request.priorityFunction(); } } function serverHasOpenSlots(serverKey) { var maxRequests = defaultValue(RequestScheduler.requestsByServer[serverKey], RequestScheduler.maximumRequestsPerServer); return numberOfActiveRequestsByServer[serverKey] < maxRequests; } function issueRequest(request) { if (request.state === RequestState.UNISSUED) { request.state = RequestState.ISSUED; request.deferred = when.defer(); } return request.deferred.promise; } function getRequestReceivedFunction(request) { return function(results) { if (request.state === RequestState.CANCELLED) { // If the data request comes back but the request is cancelled, ignore it. return; } --statistics.numberOfActiveRequests; --numberOfActiveRequestsByServer[request.serverKey]; requestCompletedEvent.raiseEvent(); request.state = RequestState.RECEIVED; request.deferred.resolve(results); }; } function getRequestFailedFunction(request) { return function(error) { if (request.state === RequestState.CANCELLED) { // If the data request comes back but the request is cancelled, ignore it. return; } ++statistics.numberOfFailedRequests; --statistics.numberOfActiveRequests; --numberOfActiveRequestsByServer[request.serverKey]; requestCompletedEvent.raiseEvent(error); request.state = RequestState.FAILED; request.deferred.reject(error); }; } function startRequest(request) { var promise = issueRequest(request); request.state = RequestState.ACTIVE; activeRequests.push(request); ++statistics.numberOfActiveRequests; ++statistics.numberOfActiveRequestsEver; ++numberOfActiveRequestsByServer[request.serverKey]; request.requestFunction().then(getRequestReceivedFunction(request)).otherwise(getRequestFailedFunction(request)); return promise; } function cancelRequest(request) { var active = request.state === RequestState.ACTIVE; request.state = RequestState.CANCELLED; ++statistics.numberOfCancelledRequests; request.deferred.reject(); if (active) { --statistics.numberOfActiveRequests; --numberOfActiveRequestsByServer[request.serverKey]; ++statistics.numberOfCancelledActiveRequests; } if (defined(request.cancelFunction)) { request.cancelFunction(); } } /** * Sort requests by priority and start requests. */ RequestScheduler.update = function() { var i; var request; // Loop over all active requests. Cancelled, failed, or received requests are removed from the array to make room for new requests. var removeCount = 0; var activeLength = activeRequests.length; for (i = 0; i < activeLength; ++i) { request = activeRequests[i]; if (request.cancelled) { // Request was explicitly cancelled cancelRequest(request); } if (request.state !== RequestState.ACTIVE) { // Request is no longer active, remove from array ++removeCount; continue; } if (removeCount > 0) { // Shift back to fill in vacated slots from completed requests activeRequests[i - removeCount] = request; } } activeRequests.length -= removeCount; // Update priority of issued requests and resort the heap var issuedRequests = requestHeap.internalArray; var issuedLength = requestHeap.length; for (i = 0; i < issuedLength; ++i) { updatePriority(issuedRequests[i]); } requestHeap.resort(); // Get the number of open slots and fill with the highest priority requests. // Un-throttled requests are automatically added to activeRequests, so activeRequests.length may exceed maximumRequests var openSlots = Math.max(RequestScheduler.maximumRequests - activeRequests.length, 0); var filledSlots = 0; while (filledSlots < openSlots && requestHeap.length > 0) { // Loop until all open slots are filled or the heap becomes empty request = requestHeap.pop(); if (request.cancelled) { // Request was explicitly cancelled cancelRequest(request); continue; } if (request.throttleByServer && !serverHasOpenSlots(request.serverKey)) { // Open slots are available, but the request is throttled by its server. Cancel and try again later. cancelRequest(request); continue; } startRequest(request); ++filledSlots; } updateStatistics(); }; /** * Get the server key from a given url. * * @param {String} url The url. * @returns {String} The server key. */ RequestScheduler.getServerKey = function(url) { //>>includeStart('debug', pragmas.debug); Check.typeOf.string('url', url); //>>includeEnd('debug'); var uri = new Uri(url).resolve(pageUri); uri.normalize(); var serverKey = uri.authority; if (!/:/.test(serverKey)) { // If the authority does not contain a port number, add port 443 for https or port 80 for http serverKey = serverKey + ':' + (uri.scheme === 'https' ? '443' : '80'); } var length = numberOfActiveRequestsByServer[serverKey]; if (!defined(length)) { numberOfActiveRequestsByServer[serverKey] = 0; } return serverKey; }; /** * Issue a request. If request.throttle is false, the request is sent immediately. Otherwise the request will be * queued and sorted by priority before being sent. * * @param {Request} request The request object. * * @returns {Promise|undefined} A Promise for the requested data, or undefined if this request does not have high enough priority to be issued. */ RequestScheduler.request = function(request) { //>>includeStart('debug', pragmas.debug); Check.typeOf.object('request', request); Check.typeOf.string('request.url', request.url); Check.typeOf.func('request.requestFunction', request.requestFunction); //>>includeEnd('debug'); if (isDataUri(request.url) || isBlobUri(request.url)) { requestCompletedEvent.raiseEvent(); request.state = RequestState.RECEIVED; return request.requestFunction(); } ++statistics.numberOfAttemptedRequests; if (!defined(request.serverKey)) { request.serverKey = RequestScheduler.getServerKey(request.url); } if (RequestScheduler.throttleRequests && request.throttleByServer && !serverHasOpenSlots(request.serverKey)) { // Server is saturated. Try again later. return undefined; } if (!RequestScheduler.throttleRequests || !request.throttle) { return startRequest(request); } if (activeRequests.length >= RequestScheduler.maximumRequests) { // Active requests are saturated. Try again later. return undefined; } // Insert into the priority heap and see if a request was bumped off. If this request is the lowest // priority it will be returned. updatePriority(request); var removedRequest = requestHeap.insert(request); if (defined(removedRequest)) { if (removedRequest === request) { // Request does not have high enough priority to be issued return undefined; } // A previously issued request has been bumped off the priority heap, so cancel it cancelRequest(removedRequest); } return issueRequest(request); }; function updateStatistics() { if (!RequestScheduler.debugShowStatistics) { return; } if (statistics.numberOfActiveRequests === 0 && statistics.lastNumberOfActiveRequests > 0) { if (statistics.numberOfAttemptedRequests > 0) { console.log('Number of attempted requests: ' + statistics.numberOfAttemptedRequests); statistics.numberOfAttemptedRequests = 0; } if (statistics.numberOfCancelledRequests > 0) { console.log('Number of cancelled requests: ' + statistics.numberOfCancelledRequests); statistics.numberOfCancelledRequests = 0; } if (statistics.numberOfCancelledActiveRequests > 0) { console.log('Number of cancelled active requests: ' + statistics.numberOfCancelledActiveRequests); statistics.numberOfCancelledActiveRequests = 0; } if (statistics.numberOfFailedRequests > 0) { console.log('Number of failed requests: ' + statistics.numberOfFailedRequests); statistics.numberOfFailedRequests = 0; } } statistics.lastNumberOfActiveRequests = statistics.numberOfActiveRequests; } /** * For testing only. Clears any requests that may not have completed from previous tests. * * @private */ RequestScheduler.clearForSpecs = function() { while (requestHeap.length > 0) { var request = requestHeap.pop(); cancelRequest(request); } var length = activeRequests.length; for (var i = 0; i < length; ++i) { cancelRequest(activeRequests[i]); } activeRequests.length = 0; numberOfActiveRequestsByServer = {}; // Clear stats statistics.numberOfAttemptedRequests = 0; statistics.numberOfActiveRequests = 0; statistics.numberOfCancelledRequests = 0; statistics.numberOfCancelledActiveRequests = 0; statistics.numberOfFailedRequests = 0; statistics.numberOfActiveRequestsEver = 0; statistics.lastNumberOfActiveRequests = 0; }; /** * For testing only. * * @private */ RequestScheduler.numberOfActiveRequestsByServer = function(serverKey) { return numberOfActiveRequestsByServer[serverKey]; }; /** * For testing only. * * @private */ RequestScheduler.requestHeap = requestHeap; export default RequestScheduler;