/* * This file is part of the MediaWiki extension MultimediaViewer. * * MultimediaViewer is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 2 of the License, or * (at your option) any later version. * * MultimediaViewer is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with MultimediaViewer. If not, see . */ const ThumbnailWidth = require( './model/mmv.model.ThumbnailWidth.js' ); const { thumbnailBucketSizes } = require( './config.json' ); /** * A helper class for bucketing image sizes. * Bucketing helps to avoid cache fragmentation and thus speed up image loading: * instead of generating potentially hundreds of different thumbnail sizes, we restrict * ourselves to a short list of acceptable thumbnail widths, and only ever load thumbnails * of that size. Final size adjustment is done in a thumbnail. * * See also the [Standardized thumbnail sizes RFC][1]. * * [1]: https://www.mediawiki.org/wiki/Talk:Requests_for_comment/Standardized_thumbnails_sizes */ class ThumbnailWidthCalculator { /** * @param {Object} [options] * @param {number[]} [options.widthBuckets] see {@link ThumbnailWidthCalculator#widthBuckets} * @param {number} [options.devicePixelRatio] see {@link ThumbnailWidthCalculator#devicePixelRatio}; * will be autodetected if omitted */ constructor( options ) { options = Object.assign( { // default image widths widthBuckets: thumbnailBucketSizes, // screen pixel per CSS pixel devicePixelRatio: window.devicePixelRatio || 1 }, options ); if ( !options.widthBuckets.length ) { throw new Error( 'No buckets!' ); } /** * List of thumbnail width bucket sizes, in pixels. * * @property {number[]} */ this.widthBuckets = options.widthBuckets; this.widthBuckets.sort( ( a, b ) => a - b ); /** * Screen pixel count per CSS pixel. * * @property {number} */ this.devicePixelRatio = options.devicePixelRatio; } /** * Finds the smallest bucket which is large enough to hold the target size * (i. e. the smallest bucket whose size is equal to or greater than the target). * If none of the buckets are large enough, returns the largest bucket. * * @param {number} target * @return {number} */ findNextBucket( target ) { let bucket; const buckets = this.widthBuckets; for ( let i = 0; i < buckets.length; i++ ) { bucket = buckets[ i ]; if ( bucket >= target ) { return bucket; } } // If we failed to find a high enough size...good luck return bucket; } /** * Finds the largest width for an image so that it will still fit into a given bounding box, * based on the size of a sample (some smaller version of the same image, like the thumbnail * shown in the article) which is used to calculate the ratio. * * This is for internal use, you should probably use calculateWidths() instead. * * @protected * @param {number} boundingWidth width of the bounding box * @param {number} boundingHeight height of the bounding box * @param {number} sampleWidth width of the sample image * @param {number} sampleHeight height of the sample image * @return {number} the largest width so that the scaled version of the sample image fits * into the bounding box (either horizontal or vertical edges touch on both sides). */ calculateFittingWidth( boundingWidth, boundingHeight, sampleWidth, sampleHeight ) { if ( ( boundingWidth / boundingHeight ) > ( sampleWidth / sampleHeight ) ) { // we are limited by height; we need to calculate the max width that fits return Math.round( ( sampleWidth / sampleHeight ) * boundingHeight ); } else { // simple case, ratio tells us we're limited by width return boundingWidth; } } /** * Finds the largest width for an image so that it will still fit into a given bounding box, * based on the size of a sample (some smaller version of the same image, like the thumbnail * shown in the article) which is used to calculate the ratio. * * Returns two values, a CSS width which is the size in pixels that should be used so the image * fits exactly into the bounding box, and a real width which should be the size of the * downloaded image in pixels. The two will be different for two reasons: * - Images are bucketed for more efficient caching, so the real width will always be one of * the numbers in this.widthBuckets. The resulting thumbnail will be slightly larger than * the bounding box so that it takes roughly the same amount of bandwidth and * looks decent when resized by the browser. * - For devices with high pixel density (multiple actual pixels per CSS pixel) we want to use * a larger image so that there will be roughly one image pixel per physical display pixel. * * @param {number} boundingWidth width of the bounding box, in CSS pixels * @param {number} boundingHeight height of the bounding box, in CSS pixels * @param {number} sampleWidth width of the sample image (in whatever - only used for aspect ratio) * @param {number} sampleHeight height of the sample image (in whatever - only used for aspect ratio) * @return {ThumbnailWidth} */ calculateWidths( boundingWidth, boundingHeight, sampleWidth, sampleHeight ) { const ratio = sampleHeight / sampleWidth; const cssWidth = this.calculateFittingWidth( boundingWidth, boundingHeight, sampleWidth, sampleHeight ); const cssHeight = Math.max( 1, Math.round( cssWidth * ratio ) ); const screenPixelWidth = Math.max( 1, cssWidth * this.devicePixelRatio ); const bucketedWidth = this.findNextBucket( screenPixelWidth ); return new ThumbnailWidth( cssWidth, cssHeight, screenPixelWidth, bucketedWidth ); } } module.exports = ThumbnailWidthCalculator;