/*! * VisualEditor MediaWiki Initialization ApiResponseCache class. * * @copyright See AUTHORS.txt * @license The MIT License (MIT); see LICENSE.txt */ /** * MediaWiki API batch queue. * * Used to queue up lists of items centrally to get information about in batches * of requests. * * @class * @extends OO.EventEmitter * @constructor * @param {mw.Api} [api] API object to use. Defaults to new mw.Api() */ ve.init.mw.ApiResponseCache = function VeInitMwApiResponseCache( api ) { // Mixin constructor OO.EventEmitter.call( this ); this.api = api || new mw.Api(); // Keys are titles, values are deferreds this.deferreds = {}; // Keys are page names, values are link data objects // This is kept for synchronous retrieval of cached values via #getCached this.cacheValues = {}; // Array of page titles queued to be looked up this.queue = []; this.schedule = ve.debounce( this.processQueue.bind( this ), 0 ); }; /* Inheritance */ OO.mixinClass( ve.init.mw.ApiResponseCache, OO.EventEmitter ); /* Static methods */ /** * Process each page in the response of an API request * * @abstract * @static * @param {Object} page * @return {Object|undefined} Any relevant info that we want to cache and return. */ ve.init.mw.ApiResponseCache.static.processPage = null; /** * @param {string} title * @return {string} */ ve.init.mw.ApiResponseCache.static.normalizeTitle = function ( title ) { var titleObj = mw.Title.newFromText( title ); if ( !titleObj ) { return title; } return titleObj.getPrefixedText(); }; /* Methods */ /** * Look up data about a title. If the data about this title is already in the cache, this * returns an already-resolved promise. Otherwise, it returns a pending promise and schedules * an request to retrieve the data. * * @param {string} title * @return {jQuery.Promise} Promise that will be resolved with the data once it's available */ ve.init.mw.ApiResponseCache.prototype.get = function ( title ) { if ( typeof title !== 'string' ) { // Don't bother letting things like undefined or null make it all the way through, // just reject them here. Otherwise they'll cause problems or exceptions at random // other points in this file. return ve.createDeferred().reject().promise(); } title = this.constructor.static.normalizeTitle( title ); if ( !Object.prototype.hasOwnProperty.call( this.deferreds, title ) ) { this.deferreds[ title ] = ve.createDeferred(); this.queue.push( title ); this.schedule(); } return this.deferreds[ title ].promise(); }; /** * Look up data about a page in the cache. If the data about this page is already in the cache, * this returns that data. Otherwise, it returns undefined. * * @param {string} name Normalized page title * @return {Object|undefined} Cache data for this name. */ ve.init.mw.ApiResponseCache.prototype.getCached = function ( name ) { if ( Object.prototype.hasOwnProperty.call( this.cacheValues, name ) ) { return this.cacheValues[ name ]; } }; /** * Fired when a new entry is added to the cache. * * @event add * @param {Object} entries Cache entries that were added. Object mapping names to data objects. */ /** * Add entries to the cache. Does not overwrite already-set entries. * * @param {Object} entries Object keyed by page title, with the values being data objects * @fires add */ ve.init.mw.ApiResponseCache.prototype.set = function ( entries ) { for ( var name in entries ) { if ( !Object.prototype.hasOwnProperty.call( this.deferreds, name ) ) { this.deferreds[ name ] = ve.createDeferred(); } if ( this.deferreds[ name ].state() === 'pending' ) { this.deferreds[ name ].resolve( entries[ name ] ); this.cacheValues[ name ] = entries[ name ]; } } this.emit( 'add', Object.keys( entries ) ); }; /** * Get an API request promise to deal with a list of titles * * @abstract * @param subqueue * @return {jQuery.Promise} */ ve.init.mw.ApiResponseCache.prototype.getRequestPromise = null; /** * Perform any scheduled API requests. * * @private * @fires add */ ve.init.mw.ApiResponseCache.prototype.processQueue = function () { var cache = this; function rejectSubqueue( rejectQueue ) { for ( var i = 0, len = rejectQueue.length; i < len; i++ ) { cache.deferreds[ rejectQueue[ i ] ].reject(); } } function processResult( data ) { var mappedTitles = [], pages = ( data.query && data.query.pages ) || data.pages, processed = {}; [ 'redirects', 'normalized', 'converted' ].forEach( function ( map ) { mappedTitles = mappedTitles.concat( ( data.query && data.query[ map ] ) || [] ); } ); if ( pages ) { var page, processedPage; for ( var pageid in pages ) { page = pages[ pageid ]; processedPage = cache.constructor.static.processPage( page ); if ( processedPage !== undefined ) { processed[ page.title ] = processedPage; } } for ( var i = 0; i < mappedTitles.length; i++ ) { // Locate the title in mapped titles, if any. if ( mappedTitles[ i ].to === page.title ) { var from = mappedTitles[ i ].fromencoded === '' ? decodeURIComponent( mappedTitles[ i ].from ) : mappedTitles[ i ].from; processed[ from ] = processedPage; break; } } cache.set( processed ); } } var queue = this.queue; this.queue = []; while ( queue.length ) { var subqueue = queue.splice( 0, 50 ).map( this.constructor.static.normalizeTitle ); this.getRequestPromise( subqueue ) .then( processResult ) // Reject everything in subqueue; this will only reject the ones // that weren't already resolved above, because .reject() on an // already resolved Deferred is a no-op. .then( rejectSubqueue.bind( null, subqueue ) ); } };