'use strict'; const is = require('./is'); /** * Weighting to apply when using contain/cover fit. * @member * @private */ const gravity = { center: 0, centre: 0, north: 1, east: 2, south: 3, west: 4, northeast: 5, southeast: 6, southwest: 7, northwest: 8 }; /** * Position to apply when using contain/cover fit. * @member * @private */ const position = { top: 1, right: 2, bottom: 3, left: 4, 'right top': 5, 'right bottom': 6, 'left bottom': 7, 'left top': 8 }; /** * Strategies for automagic cover behaviour. * @member * @private */ const strategy = { entropy: 16, attention: 17 }; /** * Reduction kernels. * @member * @private */ const kernel = { nearest: 'nearest', cubic: 'cubic', mitchell: 'mitchell', lanczos2: 'lanczos2', lanczos3: 'lanczos3' }; /** * Methods by which an image can be resized to fit the provided dimensions. * @member * @private */ const fit = { contain: 'contain', cover: 'cover', fill: 'fill', inside: 'inside', outside: 'outside' }; /** * Map external fit property to internal canvas property. * @member * @private */ const mapFitToCanvas = { contain: 'embed', cover: 'crop', fill: 'ignore_aspect', inside: 'max', outside: 'min' }; /** * @private */ function isRotationExpected (options) { return (options.angle % 360) !== 0 || options.useExifOrientation === true || options.rotationAngle !== 0; } /** * Resize image to `width`, `height` or `width x height`. * * When both a `width` and `height` are provided, the possible methods by which the image should **fit** these are: * - `cover`: (default) Preserving aspect ratio, ensure the image covers both provided dimensions by cropping/clipping to fit. * - `contain`: Preserving aspect ratio, contain within both provided dimensions using "letterboxing" where necessary. * - `fill`: Ignore the aspect ratio of the input and stretch to both provided dimensions. * - `inside`: Preserving aspect ratio, resize the image to be as large as possible while ensuring its dimensions are less than or equal to both those specified. * - `outside`: Preserving aspect ratio, resize the image to be as small as possible while ensuring its dimensions are greater than or equal to both those specified. * * Some of these values are based on the [object-fit](https://developer.mozilla.org/en-US/docs/Web/CSS/object-fit) CSS property. * * When using a `fit` of `cover` or `contain`, the default **position** is `centre`. Other options are: * - `sharp.position`: `top`, `right top`, `right`, `right bottom`, `bottom`, `left bottom`, `left`, `left top`. * - `sharp.gravity`: `north`, `northeast`, `east`, `southeast`, `south`, `southwest`, `west`, `northwest`, `center` or `centre`. * - `sharp.strategy`: `cover` only, dynamically crop using either the `entropy` or `attention` strategy. * * Some of these values are based on the [object-position](https://developer.mozilla.org/en-US/docs/Web/CSS/object-position) CSS property. * * The experimental strategy-based approach resizes so one dimension is at its target length * then repeatedly ranks edge regions, discarding the edge with the lowest score based on the selected strategy. * - `entropy`: focus on the region with the highest [Shannon entropy](https://en.wikipedia.org/wiki/Entropy_%28information_theory%29). * - `attention`: focus on the region with the highest luminance frequency, colour saturation and presence of skin tones. * * Possible interpolation kernels are: * - `nearest`: Use [nearest neighbour interpolation](http://en.wikipedia.org/wiki/Nearest-neighbor_interpolation). * - `cubic`: Use a [Catmull-Rom spline](https://en.wikipedia.org/wiki/Centripetal_Catmull%E2%80%93Rom_spline). * - `mitchell`: Use a [Mitchell-Netravali spline](https://www.cs.utexas.edu/~fussell/courses/cs384g-fall2013/lectures/mitchell/Mitchell.pdf). * - `lanczos2`: Use a [Lanczos kernel](https://en.wikipedia.org/wiki/Lanczos_resampling#Lanczos_kernel) with `a=2`. * - `lanczos3`: Use a Lanczos kernel with `a=3` (the default). * * @example * sharp(input) * .resize({ width: 100 }) * .toBuffer() * .then(data => { * // 100 pixels wide, auto-scaled height * }); * * @example * sharp(input) * .resize({ height: 100 }) * .toBuffer() * .then(data => { * // 100 pixels high, auto-scaled width * }); * * @example * sharp(input) * .resize(200, 300, { * kernel: sharp.kernel.nearest, * fit: 'contain', * position: 'right top', * background: { r: 255, g: 255, b: 255, alpha: 0.5 } * }) * .toFile('output.png') * .then(() => { * // output.png is a 200 pixels wide and 300 pixels high image * // containing a nearest-neighbour scaled version * // contained within the north-east corner of a semi-transparent white canvas * }); * * @example * const transformer = sharp() * .resize({ * width: 200, * height: 200, * fit: sharp.fit.cover, * position: sharp.strategy.entropy * }); * // Read image data from readableStream * // Write 200px square auto-cropped image data to writableStream * readableStream * .pipe(transformer) * .pipe(writableStream); * * @example * sharp(input) * .resize(200, 200, { * fit: sharp.fit.inside, * withoutEnlargement: true * }) * .toFormat('jpeg') * .toBuffer() * .then(function(outputBuffer) { * // outputBuffer contains JPEG image data * // no wider and no higher than 200 pixels * // and no larger than the input image * }); * * @example * const scaleByHalf = await sharp(input) * .metadata() * .then(({ width }) => sharp(input) * .resize(Math.round(width * 0.5)) * .toBuffer() * ); * * @param {number} [width] - pixels wide the resultant image should be. Use `null` or `undefined` to auto-scale the width to match the height. * @param {number} [height] - pixels high the resultant image should be. Use `null` or `undefined` to auto-scale the height to match the width. * @param {Object} [options] * @param {String} [options.width] - alternative means of specifying `width`. If both are present this take priority. * @param {String} [options.height] - alternative means of specifying `height`. If both are present this take priority. * @param {String} [options.fit='cover'] - how the image should be resized to fit both provided dimensions, one of `cover`, `contain`, `fill`, `inside` or `outside`. * @param {String} [options.position='centre'] - position, gravity or strategy to use when `fit` is `cover` or `contain`. * @param {String|Object} [options.background={r: 0, g: 0, b: 0, alpha: 1}] - background colour when using a `fit` of `contain`, parsed by the [color](https://www.npmjs.org/package/color) module, defaults to black without transparency. * @param {String} [options.kernel='lanczos3'] - the kernel to use for image reduction. * @param {Boolean} [options.withoutEnlargement=false] - do not enlarge if the width *or* height are already less than the specified dimensions, equivalent to GraphicsMagick's `>` geometry option. * @param {Boolean} [options.fastShrinkOnLoad=true] - take greater advantage of the JPEG and WebP shrink-on-load feature, which can lead to a slight moiré pattern on some images. * @returns {Sharp} * @throws {Error} Invalid parameters */ function resize (width, height, options) { if (is.defined(width)) { if (is.object(width) && !is.defined(options)) { options = width; } else if (is.integer(width) && width > 0) { this.options.width = width; } else { throw is.invalidParameterError('width', 'positive integer', width); } } else { this.options.width = -1; } if (is.defined(height)) { if (is.integer(height) && height > 0) { this.options.height = height; } else { throw is.invalidParameterError('height', 'positive integer', height); } } else { this.options.height = -1; } if (is.object(options)) { // Width if (is.defined(options.width)) { if (is.integer(options.width) && options.width > 0) { this.options.width = options.width; } else { throw is.invalidParameterError('width', 'positive integer', options.width); } } // Height if (is.defined(options.height)) { if (is.integer(options.height) && options.height > 0) { this.options.height = options.height; } else { throw is.invalidParameterError('height', 'positive integer', options.height); } } // Fit if (is.defined(options.fit)) { const canvas = mapFitToCanvas[options.fit]; if (is.string(canvas)) { this.options.canvas = canvas; } else { throw is.invalidParameterError('fit', 'valid fit', options.fit); } } // Position if (is.defined(options.position)) { const pos = is.integer(options.position) ? options.position : strategy[options.position] || position[options.position] || gravity[options.position]; if (is.integer(pos) && (is.inRange(pos, 0, 8) || is.inRange(pos, 16, 17))) { this.options.position = pos; } else { throw is.invalidParameterError('position', 'valid position/gravity/strategy', options.position); } } // Background this._setBackgroundColourOption('resizeBackground', options.background); // Kernel if (is.defined(options.kernel)) { if (is.string(kernel[options.kernel])) { this.options.kernel = kernel[options.kernel]; } else { throw is.invalidParameterError('kernel', 'valid kernel name', options.kernel); } } // Without enlargement if (is.defined(options.withoutEnlargement)) { this._setBooleanOption('withoutEnlargement', options.withoutEnlargement); } // Shrink on load if (is.defined(options.fastShrinkOnLoad)) { this._setBooleanOption('fastShrinkOnLoad', options.fastShrinkOnLoad); } } return this; } /** * Extends/pads the edges of the image with the provided background colour. * This operation will always occur after resizing and extraction, if any. * * @example * // Resize to 140 pixels wide, then add 10 transparent pixels * // to the top, left and right edges and 20 to the bottom edge * sharp(input) * .resize(140) * .extend({ * top: 10, * bottom: 20, * left: 10, * right: 10, * background: { r: 0, g: 0, b: 0, alpha: 0 } * }) * ... * * @param {(number|Object)} extend - single pixel count to add to all edges or an Object with per-edge counts * @param {number} [extend.top] * @param {number} [extend.left] * @param {number} [extend.bottom] * @param {number} [extend.right] * @param {String|Object} [extend.background={r: 0, g: 0, b: 0, alpha: 1}] - background colour, parsed by the [color](https://www.npmjs.org/package/color) module, defaults to black without transparency. * @returns {Sharp} * @throws {Error} Invalid parameters */ function extend (extend) { if (is.integer(extend) && extend > 0) { this.options.extendTop = extend; this.options.extendBottom = extend; this.options.extendLeft = extend; this.options.extendRight = extend; } else if ( is.object(extend) && is.integer(extend.top) && extend.top >= 0 && is.integer(extend.bottom) && extend.bottom >= 0 && is.integer(extend.left) && extend.left >= 0 && is.integer(extend.right) && extend.right >= 0 ) { this.options.extendTop = extend.top; this.options.extendBottom = extend.bottom; this.options.extendLeft = extend.left; this.options.extendRight = extend.right; this._setBackgroundColourOption('extendBackground', extend.background); } else { throw is.invalidParameterError('extend', 'integer or object', extend); } return this; } /** * Extract/crop a region of the image. * * - Use `extract` before `resize` for pre-resize extraction. * - Use `extract` after `resize` for post-resize extraction. * - Use `extract` before and after for both. * * @example * sharp(input) * .extract({ left: left, top: top, width: width, height: height }) * .toFile(output, function(err) { * // Extract a region of the input image, saving in the same format. * }); * @example * sharp(input) * .extract({ left: leftOffsetPre, top: topOffsetPre, width: widthPre, height: heightPre }) * .resize(width, height) * .extract({ left: leftOffsetPost, top: topOffsetPost, width: widthPost, height: heightPost }) * .toFile(output, function(err) { * // Extract a region, resize, then extract from the resized image * }); * * @param {Object} options - describes the region to extract using integral pixel values * @param {number} options.left - zero-indexed offset from left edge * @param {number} options.top - zero-indexed offset from top edge * @param {number} options.width - width of region to extract * @param {number} options.height - height of region to extract * @returns {Sharp} * @throws {Error} Invalid parameters */ function extract (options) { const suffix = this.options.width === -1 && this.options.height === -1 ? 'Pre' : 'Post'; ['left', 'top', 'width', 'height'].forEach(function (name) { const value = options[name]; if (is.integer(value) && value >= 0) { this.options[name + (name === 'left' || name === 'top' ? 'Offset' : '') + suffix] = value; } else { throw is.invalidParameterError(name, 'integer', value); } }, this); // Ensure existing rotation occurs before pre-resize extraction if (suffix === 'Pre' && isRotationExpected(this.options)) { this.options.rotateBeforePreExtract = true; } return this; } /** * Trim "boring" pixels from all edges that contain values similar to the top-left pixel. * Images consisting entirely of a single colour will calculate "boring" using the alpha channel, if any. * * The `info` response Object will contain `trimOffsetLeft` and `trimOffsetTop` properties. * * @param {number} [threshold=10] the allowed difference from the top-left pixel, a number greater than zero. * @returns {Sharp} * @throws {Error} Invalid parameters */ function trim (threshold) { if (!is.defined(threshold)) { this.options.trimThreshold = 10; } else if (is.number(threshold) && threshold > 0) { this.options.trimThreshold = threshold; } else { throw is.invalidParameterError('threshold', 'number greater than zero', threshold); } if (this.options.trimThreshold && isRotationExpected(this.options)) { this.options.rotateBeforePreExtract = true; } return this; } /** * Decorate the Sharp prototype with resize-related functions. * @private */ module.exports = function (Sharp) { Object.assign(Sharp.prototype, { resize, extend, extract, trim }); // Class attributes Sharp.gravity = gravity; Sharp.strategy = strategy; Sharp.kernel = kernel; Sharp.fit = fit; Sharp.position = position; };