Release v0.30.7

This deprecates the libc-as-suffix approach of --platform=linuxmusl

.cirrus.yml

@@ -1,15 +1,15 @@
 freebsd_instance:
-  image_family: freebsd-13-0-snap
+  image_family: freebsd-14-0-snap
 
 task:
-  name: FreeBSD 13.0
+  name: FreeBSD
   env:
     IGNORE_OSVERSION: yes
   skip_notifications: true
   prerequisites_script:
     - pkg update -f
     - pkg upgrade -y
-    - pkg install -y pkgconf vips node npm
+    - pkg install -y devel/pkgconf graphics/vips www/node16 www/npm
   install_script:
     - npm install --build-from-source --unsafe-perm
   test_script:

.github/CONTRIBUTING.md

@@ -16,7 +16,7 @@ If a [similar request](https://github.com/lovell/sharp/labels/enhancement) exist
 it's probably fastest to add a comment to it about your requirement.
 
 Implementation is usually straightforward if libvips
-[already supports](https://libvips.github.io/libvips/API/current/func-list.html)
+[already supports](https://www.libvips.org/API/current/func-list.html)
 the feature you need.
 
 ## Submit a Pull Request to fix a bug

.github/ISSUE_TEMPLATE/installation.md

@@ -32,11 +32,11 @@ If you are using npm v7 or later, does the user running `npm install` own the di
 
 If you are using the `ignore-scripts` feature of `npm`, have you tried with the `npm install --ignore-scripts=false` flag?
 
-### What is the complete output of running `npm install --verbose sharp`?
+### What is the complete output of running `npm install --verbose --foreground-scripts sharp` in an empty directory?
 
 <details>
 
-<!-- Please provide output of `npm install --verbose sharp` here. -->
+<!-- Please provide output of `npm install --verbose --foreground-scripts sharp` in an empty directory here. -->
 
 </details>
 

docs/api-colour.md

@@ -9,7 +9,13 @@ An alpha channel may be present and will be unchanged by the operation.
 
 *   `rgb` **([string][1] | [Object][2])** parsed by the [color][3] module to extract chroma values.
 
-<!---->
+### Examples
+
+```javascript
+const output = await sharp(input)
+  .tint({ r: 255, g: 240, b: 16 })
+  .toBuffer();
+```
 
 *   Throws **[Error][4]** Invalid parameter
 
@@ -28,6 +34,12 @@ An alpha channel may be present, and will be unchanged by the operation.
 
 *   `greyscale` **[Boolean][5]**  (optional, default `true`)
 
+### Examples
+
+```javascript
+const output = await sharp(input).greyscale().toBuffer();
+```
+
 Returns **Sharp** 
 
 ## grayscale

docs/api-composite.md

@@ -14,7 +14,7 @@ The `blend` option can be one of `clear`, `source`, `over`, `in`, `out`, `atop`,
 `hard-light`, `soft-light`, `difference`, `exclusion`.
 
 More information about blend modes can be found at
-[https://libvips.github.io/libvips/API/current/libvips-conversion.html#VipsBlendMode][1]
+[https://www.libvips.org/API/current/libvips-conversion.html#VipsBlendMode][1]
 and [https://www.cairographics.org/operators/][2]
 
 ### Parameters
@@ -41,11 +41,29 @@ and [https://www.cairographics.org/operators/][2]
         *   `images[].raw.width` **[Number][7]?** 
         *   `images[].raw.height` **[Number][7]?** 
         *   `images[].raw.channels` **[Number][7]?** 
-    *   `images[].failOnError` **[boolean][9]** @see [constructor parameters][10] (optional, default `true`)
+    *   `images[].animated` **[boolean][9]** Set to `true` to read all frames/pages of an animated image. (optional, default `false`)
+    *   `images[].failOn` **[string][6]** @see [constructor parameters][10] (optional, default `'warning'`)
     *   `images[].limitInputPixels` **([number][7] | [boolean][9])** @see [constructor parameters][10] (optional, default `268402689`)
 
 ### Examples
 
+```javascript
+await sharp(background)
+  .composite([
+    { input: layer1, gravity: 'northwest' },
+    { input: layer2, gravity: 'southeast' },
+  ])
+  .toFile('combined.png');
+```
+
+```javascript
+const output = await sharp('input.gif', { animated: true })
+  .composite([
+    { input: 'overlay.png', tile: true, blend: 'saturate' }
+  ])
+  .toBuffer();
+```
+
 ```javascript
 sharp('input.png')
   .rotate(180)
@@ -71,7 +89,7 @@ Returns **Sharp**
 
 *   **since**: 0.22.0
 
-[1]: https://libvips.github.io/libvips/API/current/libvips-conversion.html#VipsBlendMode
+[1]: https://www.libvips.org/API/current/libvips-conversion.html#VipsBlendMode
 
 [2]: https://www.cairographics.org/operators/
 

docs/api-constructor.md

@@ -20,38 +20,37 @@ Implements the [stream.Duplex][1] class.
     JPEG, PNG, WebP, AVIF, GIF, SVG, TIFF or raw pixel image data can be streamed into the object when not present.
 *   `options` **[Object][13]?** if present, is an Object with optional attributes.
 
-    *   `options.failOnError` **[boolean][14]** by default halt processing and raise an error when loading invalid images.
-        Set this flag to `false` if you'd rather apply a "best effort" to decode images, even if the data is corrupt or invalid. (optional, default `true`)
-    *   `options.limitInputPixels` **([number][15] | [boolean][14])** Do not process input images where the number of pixels
+    *   `options.failOn` **[string][12]** level of sensitivity to invalid images, one of (in order of sensitivity): 'none' (least), 'truncated', 'error' or 'warning' (most), highers level imply lower levels. (optional, default `'warning'`)
+    *   `options.limitInputPixels` **([number][14] | [boolean][15])** Do not process input images where the number of pixels
         (width x height) exceeds this limit. Assumes image dimensions contained in the input metadata can be trusted.
         An integral Number of pixels, zero or false to remove limit, true to use default limit of 268402689 (0x3FFF x 0x3FFF). (optional, default `268402689`)
-    *   `options.unlimited` **[boolean][14]** Set this to `true` to remove safety features that help prevent memory exhaustion (SVG, PNG). (optional, default `false`)
-    *   `options.sequentialRead` **[boolean][14]** Set this to `true` to use sequential rather than random access where possible.
+    *   `options.unlimited` **[boolean][15]** Set this to `true` to remove safety features that help prevent memory exhaustion (SVG, PNG). (optional, default `false`)
+    *   `options.sequentialRead` **[boolean][15]** Set this to `true` to use sequential rather than random access where possible.
         This can reduce memory usage and might improve performance on some systems. (optional, default `false`)
-    *   `options.density` **[number][15]** number representing the DPI for vector images in the range 1 to 100000. (optional, default `72`)
-    *   `options.pages` **[number][15]** number of pages to extract for multi-page input (GIF, WebP, AVIF, TIFF, PDF), use -1 for all pages. (optional, default `1`)
-    *   `options.page` **[number][15]** page number to start extracting from for multi-page input (GIF, WebP, AVIF, TIFF, PDF), zero based. (optional, default `0`)
-    *   `options.subifd` **[number][15]** subIFD (Sub Image File Directory) to extract for OME-TIFF, defaults to main image. (optional, default `-1`)
-    *   `options.level` **[number][15]** level to extract from a multi-level input (OpenSlide), zero based. (optional, default `0`)
-    *   `options.animated` **[boolean][14]** Set to `true` to read all frames/pages of an animated image (equivalent of setting `pages` to `-1`). (optional, default `false`)
+    *   `options.density` **[number][14]** number representing the DPI for vector images in the range 1 to 100000. (optional, default `72`)
+    *   `options.pages` **[number][14]** number of pages to extract for multi-page input (GIF, WebP, AVIF, TIFF, PDF), use -1 for all pages. (optional, default `1`)
+    *   `options.page` **[number][14]** page number to start extracting from for multi-page input (GIF, WebP, AVIF, TIFF, PDF), zero based. (optional, default `0`)
+    *   `options.subifd` **[number][14]** subIFD (Sub Image File Directory) to extract for OME-TIFF, defaults to main image. (optional, default `-1`)
+    *   `options.level` **[number][14]** level to extract from a multi-level input (OpenSlide), zero based. (optional, default `0`)
+    *   `options.animated` **[boolean][15]** Set to `true` to read all frames/pages of an animated image (equivalent of setting `pages` to `-1`). (optional, default `false`)
     *   `options.raw` **[Object][13]?** describes raw pixel input image data. See `raw()` for pixel ordering.
 
-        *   `options.raw.width` **[number][15]?** integral number of pixels wide.
-        *   `options.raw.height` **[number][15]?** integral number of pixels high.
-        *   `options.raw.channels` **[number][15]?** integral number of channels, between 1 and 4.
-        *   `options.raw.premultiplied` **[boolean][14]?** specifies that the raw input has already been premultiplied, set to `true`
+        *   `options.raw.width` **[number][14]?** integral number of pixels wide.
+        *   `options.raw.height` **[number][14]?** integral number of pixels high.
+        *   `options.raw.channels` **[number][14]?** integral number of channels, between 1 and 4.
+        *   `options.raw.premultiplied` **[boolean][15]?** specifies that the raw input has already been premultiplied, set to `true`
             to avoid sharp premultiplying the image. (optional, default `false`)
     *   `options.create` **[Object][13]?** describes a new image to be created.
 
-        *   `options.create.width` **[number][15]?** integral number of pixels wide.
-        *   `options.create.height` **[number][15]?** integral number of pixels high.
-        *   `options.create.channels` **[number][15]?** integral number of channels, either 3 (RGB) or 4 (RGBA).
+        *   `options.create.width` **[number][14]?** integral number of pixels wide.
+        *   `options.create.height` **[number][14]?** integral number of pixels high.
+        *   `options.create.channels` **[number][14]?** integral number of channels, either 3 (RGB) or 4 (RGBA).
         *   `options.create.background` **([string][12] | [Object][13])?** parsed by the [color][16] module to extract values for red, green, blue and alpha.
         *   `options.create.noise` **[Object][13]?** describes a noise to be created.
 
             *   `options.create.noise.type` **[string][12]?** type of generated noise, currently only `gaussian` is supported.
-            *   `options.create.noise.mean` **[number][15]?** mean of pixels in generated noise.
-            *   `options.create.noise.sigma` **[number][15]?** standard deviation of pixels in generated noise.
+            *   `options.create.noise.mean` **[number][14]?** mean of pixels in generated noise.
+            *   `options.create.noise.sigma` **[number][14]?** standard deviation of pixels in generated noise.
 
 ### Examples
 
@@ -154,9 +153,7 @@ readableStream.pipe(pipeline);
 // Using Promises to know when the pipeline is complete
 const fs = require("fs");
 const got = require("got");
-const sharpStream = sharp({
-  failOnError: false
-});
+const sharpStream = sharp({ failOn: 'none' });
 
 const promises = [];
 
@@ -226,9 +223,9 @@ Returns **[Sharp][18]**
 
 [13]: https://developer.mozilla.org/docs/Web/JavaScript/Reference/Global_Objects/Object
 
-[14]: https://developer.mozilla.org/docs/Web/JavaScript/Reference/Global_Objects/Boolean
+[14]: https://developer.mozilla.org/docs/Web/JavaScript/Reference/Global_Objects/Number
 
-[15]: https://developer.mozilla.org/docs/Web/JavaScript/Reference/Global_Objects/Number
+[15]: https://developer.mozilla.org/docs/Web/JavaScript/Reference/Global_Objects/Boolean
 
 [16]: https://www.npmjs.org/package/color
 

docs/api-input.md

@@ -11,8 +11,8 @@ A `Promise` is returned when `callback` is not provided.
 
 *   `format`: Name of decoder used to decompress image data e.g. `jpeg`, `png`, `webp`, `gif`, `svg`
 *   `size`: Total size of image in bytes, for Stream and Buffer input only
-*   `width`: Number of pixels wide (EXIF orientation is not taken into consideration)
-*   `height`: Number of pixels high (EXIF orientation is not taken into consideration)
+*   `width`: Number of pixels wide (EXIF orientation is not taken into consideration, see example below)
+*   `height`: Number of pixels high (EXIF orientation is not taken into consideration, see example below)
 *   `space`: Name of colour space interpretation e.g. `srgb`, `rgb`, `cmyk`, `lab`, `b-w` [...][1]
 *   `channels`: Number of bands e.g. `3` for sRGB, `4` for CMYK
 *   `depth`: Name of pixel depth format e.g. `uchar`, `char`, `ushort`, `float` [...][2]
@@ -63,6 +63,18 @@ image
   });
 ```
 
+```javascript
+// Based on EXIF rotation metadata, get the right-side-up width and height:
+
+const size = getNormalSize(await sharp(input).metadata());
+
+function getNormalSize({ width, height, orientation }) {
+  return (orientation || 0) >= 5
+    ? { width: height, height: width }
+    : { width, height };
+}
+```
+
 Returns **([Promise][5]<[Object][6]> | Sharp)** 
 
 ## stats
@@ -82,9 +94,9 @@ A `Promise` is returned when `callback` is not provided.
     *   `maxX` (x-coordinate of one of the pixel where the maximum lies)
     *   `maxY` (y-coordinate of one of the pixel where the maximum lies)
 *   `isOpaque`: Is the image fully opaque? Will be `true` if the image has no alpha channel or if every pixel is fully opaque.
-*   `entropy`: Histogram-based estimation of greyscale entropy, discarding alpha channel if any (experimental)
-*   `sharpness`: Estimation of greyscale sharpness based on the standard deviation of a Laplacian convolution, discarding alpha channel if any (experimental)
-*   `dominant`: Object containing most dominant sRGB colour based on a 4096-bin 3D histogram (experimental)
+*   `entropy`: Histogram-based estimation of greyscale entropy, discarding alpha channel if any.
+*   `sharpness`: Estimation of greyscale sharpness based on the standard deviation of a Laplacian convolution, discarding alpha channel if any.
+*   `dominant`: Object containing most dominant sRGB colour based on a 4096-bin 3D histogram.
 
 **Note**: Statistics are derived from the original input image. Any operations performed on the image must first be
 written to a buffer in order to run `stats` on the result (see third example).
@@ -119,9 +131,9 @@ const stats = await sharp(part).stats();
 
 Returns **[Promise][5]<[Object][6]>** 
 
-[1]: https://libvips.github.io/libvips/API/current/VipsImage.html#VipsInterpretation
+[1]: https://www.libvips.org/API/current/VipsImage.html#VipsInterpretation
 
-[2]: https://libvips.github.io/libvips/API/current/VipsImage.html#VipsBandFormat
+[2]: https://www.libvips.org/API/current/VipsImage.html#VipsBandFormat
 
 [3]: https://www.npmjs.com/package/icc
 

docs/api-operation.md

@@ -53,6 +53,12 @@ The use of `flip` implies the removal of the EXIF `Orientation` tag, if any.
 
 *   `flip` **[Boolean][6]**  (optional, default `true`)
 
+### Examples
+
+```javascript
+const output = await sharp(input).flip().toBuffer();
+```
+
 Returns **Sharp** 
 
 ## flop
@@ -64,6 +70,12 @@ The use of `flop` implies the removal of the EXIF `Orientation` tag, if any.
 
 *   `flop` **[Boolean][6]**  (optional, default `true`)
 
+### Examples
+
+```javascript
+const output = await sharp(input).flop().toBuffer();
+```
+
 Returns **Sharp** 
 
 ## affine
@@ -129,13 +141,43 @@ When used without parameters, performs a fast, mild sharpen of the output image.
 When a `sigma` is provided, performs a slower, more accurate sharpen of the L channel in the LAB colour space.
 Separate control over the level of sharpening in "flat" and "jagged" areas is available.
 
+See [libvips sharpen][8] operation.
+
 ### Parameters
 
-*   `sigma` **[number][1]?** the sigma of the Gaussian mask, where `sigma = 1 + radius / 2`.
-*   `flat` **[number][1]** the level of sharpening to apply to "flat" areas. (optional, default `1.0`)
-*   `jagged` **[number][1]** the level of sharpening to apply to "jagged" areas. (optional, default `2.0`)
+*   `options` **([Object][2] | [number][1])?** if present, is an Object with attributes or (deprecated) a number for `options.sigma`.
 
-<!---->
+    *   `options.sigma` **[number][1]?** the sigma of the Gaussian mask, where `sigma = 1 + radius / 2`.
+    *   `options.m1` **[number][1]** the level of sharpening to apply to "flat" areas. (optional, default `1.0`)
+    *   `options.m2` **[number][1]** the level of sharpening to apply to "jagged" areas. (optional, default `2.0`)
+    *   `options.x1` **[number][1]** threshold between "flat" and "jagged" (optional, default `2.0`)
+    *   `options.y2` **[number][1]** maximum amount of brightening. (optional, default `10.0`)
+    *   `options.y3` **[number][1]** maximum amount of darkening. (optional, default `20.0`)
+*   `flat` **[number][1]?** (deprecated) see `options.m1`.
+*   `jagged` **[number][1]?** (deprecated) see `options.m2`.
+
+### Examples
+
+```javascript
+const data = await sharp(input).sharpen().toBuffer();
+```
+
+```javascript
+const data = await sharp(input).sharpen({ sigma: 2 }).toBuffer();
+```
+
+```javascript
+const data = await sharp(input)
+  .sharpen({
+    sigma: 2,
+    m1: 0
+    m2: 3,
+    x1: 3,
+    y2: 15,
+    y3: 15,
+  })
+  .toBuffer();
+```
 
 *   Throws **[Error][5]** Invalid parameters
 
@@ -150,7 +192,15 @@ When used without parameters the default window is 3x3.
 
 *   `size` **[number][1]** square mask size: size x size (optional, default `3`)
 
-<!---->
+### Examples
+
+```javascript
+const output = await sharp(input).median().toBuffer();
+```
+
+```javascript
+const output = await sharp(input).median(5).toBuffer();
+```
 
 *   Throws **[Error][5]** Invalid parameters
 
@@ -190,7 +240,7 @@ Returns **Sharp**
 
 Merge alpha transparency channel, if any, with a background, then remove the alpha channel.
 
-See also [removeAlpha][8].
+See also [removeAlpha][9].
 
 ### Parameters
 
@@ -239,6 +289,20 @@ Produce the "negative" of the image.
 
     *   `options.alpha` **[Boolean][6]** Whether or not to negate any alpha channel (optional, default `true`)
 
+### Examples
+
+```javascript
+const output = await sharp(input)
+  .negate()
+  .toBuffer();
+```
+
+```javascript
+const output = await sharp(input)
+  .negate({ alpha: false })
+  .toBuffer();
+```
+
 Returns **Sharp** 
 
 ## normalise
@@ -249,6 +313,12 @@ Enhance output image contrast by stretching its luminance to cover the full dyna
 
 *   `normalise` **[Boolean][6]**  (optional, default `true`)
 
+### Examples
+
+```javascript
+const output = await sharp(input).normalise().toBuffer();
+```
+
 Returns **Sharp** 
 
 ## normalize
@@ -259,12 +329,18 @@ Alternative spelling of normalise.
 
 *   `normalize` **[Boolean][6]**  (optional, default `true`)
 
+### Examples
+
+```javascript
+const output = await sharp(input).normalize().toBuffer();
+```
+
 Returns **Sharp** 
 
 ## clahe
 
 Perform contrast limiting adaptive histogram equalization
-[CLAHE][9].
+[CLAHE][10].
 
 This will, in general, enhance the clarity of the image by bringing out darker details.
 
@@ -278,7 +354,16 @@ This will, in general, enhance the clarity of the image by bringing out darker d
         cumulative histogram. A value of 0 disables contrast limiting. Valid values
         are integers in the range 0-100 (inclusive) (optional, default `3`)
 
-<!---->
+### Examples
+
+```javascript
+const output = await sharp(input)
+  .clahe({
+    width: 3,
+    height: 3,
+  })
+  .toBuffer();
+```
 
 *   Throws **[Error][5]** Invalid parameters
 
@@ -349,7 +434,7 @@ the selected bitwise boolean `operation` between the corresponding pixels of the
 
 ### Parameters
 
-*   `operand` **([Buffer][10] | [string][3])** Buffer containing image data or string containing the path to an image file.
+*   `operand` **([Buffer][11] | [string][3])** Buffer containing image data or string containing the path to an image file.
 *   `operator` **[string][3]** one of `and`, `or` or `eor` to perform that bitwise operation, like the C logic operators `&`, `|` and `^` respectively.
 *   `options` **[Object][2]?** 
 
@@ -430,28 +515,41 @@ brightness is multiplicative whereas lightness is additive.
 ### Examples
 
 ```javascript
-sharp(input)
+// increase brightness by a factor of 2
+const output = await sharp(input)
   .modulate({
-    brightness: 2 // increase brightness by a factor of 2
-  });
+    brightness: 2
+  })
+  .toBuffer();
+```
 
-sharp(input)
+```javascript
+// hue-rotate by 180 degrees
+const output = await sharp(input)
   .modulate({
-    hue: 180 // hue-rotate by 180 degrees
-  });
+    hue: 180
+  })
+  .toBuffer();
+```
 
-sharp(input)
+```javascript
+// increase lightness by +50
+const output = await sharp(input)
   .modulate({
-    lightness: 50 // increase lightness by +50
-  });
+    lightness: 50
+  })
+  .toBuffer();
+```
 
+```javascript
 // decreate brightness and saturation while also hue-rotating by 90 degrees
-sharp(input)
+const output = await sharp(input)
   .modulate({
     brightness: 0.5,
     saturation: 0.5,
-    hue: 90
-  });
+    hue: 90,
+  })
+  .toBuffer();
 ```
 
 Returns **Sharp** 
@@ -474,8 +572,10 @@ Returns **Sharp**
 
 [7]: https://developer.mozilla.org/docs/Web/JavaScript/Reference/Global_Objects/Array
 
-[8]: /api-channel#removealpha
+[8]: https://www.libvips.org/API/current/libvips-convolution.html#vips-sharpen
 
-[9]: https://en.wikipedia.org/wiki/Adaptive_histogram_equalization#Contrast_Limited_AHE
+[9]: /api-channel#removealpha
 
-[10]: https://nodejs.org/api/buffer.html
+[10]: https://en.wikipedia.org/wiki/Adaptive_histogram_equalization#Contrast_Limited_AHE
+
+[11]: https://nodejs.org/api/buffer.html

docs/api-output.md

@@ -46,6 +46,8 @@ Returns **[Promise][5]<[Object][6]>** when no callback is provided
 Write output to a Buffer.
 JPEG, PNG, WebP, AVIF, TIFF, GIF and raw pixel data output are supported.
 
+Use [toFormat][7] or one of the format-specific functions such as [jpeg][8], [png][9] etc. to set the output format.
+
 If no explicit format is set, the output format will match the input image, except SVG input which becomes PNG output.
 
 By default all metadata will be removed, which includes EXIF-based orientation.
@@ -66,7 +68,7 @@ A `Promise` is returned when `callback` is not provided.
 
 *   `options` **[Object][6]?** 
 
-    *   `options.resolveWithObject` **[boolean][7]?** Resolve the Promise with an Object containing `data` and `info` properties instead of resolving only with `data`.
+    *   `options.resolveWithObject` **[boolean][10]?** Resolve the Promise with an Object containing `data` and `info` properties instead of resolving only with `data`.
 *   `callback` **[Function][3]?** 
 
 ### Examples
@@ -85,6 +87,7 @@ sharp(input)
 
 ```javascript
 sharp(input)
+  .png()
   .toBuffer({ resolveWithObject: true })
   .then(({ data, info }) => { ... })
   .catch(err => { ... });
@@ -107,7 +110,7 @@ await sharp(pixelArray, { raw: { width, height, channels } })
   .toFile('my-changed-image.jpg');
 ```
 
-Returns **[Promise][5]<[Buffer][8]>** when no callback is provided
+Returns **[Promise][5]<[Buffer][11]>** when no callback is provided
 
 ## withMetadata
 
@@ -118,14 +121,16 @@ output profile is provided.
 The default behaviour, when `withMetadata` is not used, is to convert to the device-independent
 sRGB colour space and strip all metadata, including the removal of any ICC profile.
 
+EXIF metadata is unsupported for TIFF output.
+
 ### Parameters
 
 *   `options` **[Object][6]?** 
 
-    *   `options.orientation` **[number][9]?** value between 1 and 8, used to update the EXIF `Orientation` tag.
+    *   `options.orientation` **[number][12]?** value between 1 and 8, used to update the EXIF `Orientation` tag.
     *   `options.icc` **[string][2]?** filesystem path to output ICC profile, defaults to sRGB.
     *   `options.exif` **[Object][6]<[Object][6]>** Object keyed by IFD0, IFD1 etc. of key/value string pairs to write as EXIF data. (optional, default `{}`)
-    *   `options.density` **[number][9]?** Number of pixels per inch (DPI).
+    *   `options.density` **[number][12]?** Number of pixels per inch (DPI).
 
 ### Examples
 
@@ -190,19 +195,19 @@ Use these JPEG options for output image.
 
 *   `options` **[Object][6]?** output options
 
-    *   `options.quality` **[number][9]** quality, integer 1-100 (optional, default `80`)
-    *   `options.progressive` **[boolean][7]** use progressive (interlace) scan (optional, default `false`)
+    *   `options.quality` **[number][12]** quality, integer 1-100 (optional, default `80`)
+    *   `options.progressive` **[boolean][10]** use progressive (interlace) scan (optional, default `false`)
     *   `options.chromaSubsampling` **[string][2]** set to '4:4:4' to prevent chroma subsampling otherwise defaults to '4:2:0' chroma subsampling (optional, default `'4:2:0'`)
-    *   `options.optimiseCoding` **[boolean][7]** optimise Huffman coding tables (optional, default `true`)
-    *   `options.optimizeCoding` **[boolean][7]** alternative spelling of optimiseCoding (optional, default `true`)
-    *   `options.mozjpeg` **[boolean][7]** use mozjpeg defaults, equivalent to `{ trellisQuantisation: true, overshootDeringing: true, optimiseScans: true, quantisationTable: 3 }` (optional, default `false`)
-    *   `options.trellisQuantisation` **[boolean][7]** apply trellis quantisation (optional, default `false`)
-    *   `options.overshootDeringing` **[boolean][7]** apply overshoot deringing (optional, default `false`)
-    *   `options.optimiseScans` **[boolean][7]** optimise progressive scans, forces progressive (optional, default `false`)
-    *   `options.optimizeScans` **[boolean][7]** alternative spelling of optimiseScans (optional, default `false`)
-    *   `options.quantisationTable` **[number][9]** quantization table to use, integer 0-8 (optional, default `0`)
-    *   `options.quantizationTable` **[number][9]** alternative spelling of quantisationTable (optional, default `0`)
-    *   `options.force` **[boolean][7]** force JPEG output, otherwise attempt to use input format (optional, default `true`)
+    *   `options.optimiseCoding` **[boolean][10]** optimise Huffman coding tables (optional, default `true`)
+    *   `options.optimizeCoding` **[boolean][10]** alternative spelling of optimiseCoding (optional, default `true`)
+    *   `options.mozjpeg` **[boolean][10]** use mozjpeg defaults, equivalent to `{ trellisQuantisation: true, overshootDeringing: true, optimiseScans: true, quantisationTable: 3 }` (optional, default `false`)
+    *   `options.trellisQuantisation` **[boolean][10]** apply trellis quantisation (optional, default `false`)
+    *   `options.overshootDeringing` **[boolean][10]** apply overshoot deringing (optional, default `false`)
+    *   `options.optimiseScans` **[boolean][10]** optimise progressive scans, forces progressive (optional, default `false`)
+    *   `options.optimizeScans` **[boolean][10]** alternative spelling of optimiseScans (optional, default `false`)
+    *   `options.quantisationTable` **[number][12]** quantization table to use, integer 0-8 (optional, default `0`)
+    *   `options.quantizationTable` **[number][12]** alternative spelling of quantisationTable (optional, default `0`)
+    *   `options.force` **[boolean][10]** force JPEG output, otherwise attempt to use input format (optional, default `true`)
 
 ### Examples
 
@@ -239,16 +244,16 @@ Set `palette` to `true` for slower, indexed PNG output.
 
 *   `options` **[Object][6]?** 
 
-    *   `options.progressive` **[boolean][7]** use progressive (interlace) scan (optional, default `false`)
-    *   `options.compressionLevel` **[number][9]** zlib compression level, 0 (fastest, largest) to 9 (slowest, smallest) (optional, default `6`)
-    *   `options.adaptiveFiltering` **[boolean][7]** use adaptive row filtering (optional, default `false`)
-    *   `options.palette` **[boolean][7]** quantise to a palette-based image with alpha transparency support (optional, default `false`)
-    *   `options.quality` **[number][9]** use the lowest number of colours needed to achieve given quality, sets `palette` to `true` (optional, default `100`)
-    *   `options.effort` **[number][9]** CPU effort, between 1 (fastest) and 10 (slowest), sets `palette` to `true` (optional, default `7`)
-    *   `options.colours` **[number][9]** maximum number of palette entries, sets `palette` to `true` (optional, default `256`)
-    *   `options.colors` **[number][9]** alternative spelling of `options.colours`, sets `palette` to `true` (optional, default `256`)
-    *   `options.dither` **[number][9]** level of Floyd-Steinberg error diffusion, sets `palette` to `true` (optional, default `1.0`)
-    *   `options.force` **[boolean][7]** force PNG output, otherwise attempt to use input format (optional, default `true`)
+    *   `options.progressive` **[boolean][10]** use progressive (interlace) scan (optional, default `false`)
+    *   `options.compressionLevel` **[number][12]** zlib compression level, 0 (fastest, largest) to 9 (slowest, smallest) (optional, default `6`)
+    *   `options.adaptiveFiltering` **[boolean][10]** use adaptive row filtering (optional, default `false`)
+    *   `options.palette` **[boolean][10]** quantise to a palette-based image with alpha transparency support (optional, default `false`)
+    *   `options.quality` **[number][12]** use the lowest number of colours needed to achieve given quality, sets `palette` to `true` (optional, default `100`)
+    *   `options.effort` **[number][12]** CPU effort, between 1 (fastest) and 10 (slowest), sets `palette` to `true` (optional, default `7`)
+    *   `options.colours` **[number][12]** maximum number of palette entries, sets `palette` to `true` (optional, default `256`)
+    *   `options.colors` **[number][12]** alternative spelling of `options.colours`, sets `palette` to `true` (optional, default `256`)
+    *   `options.dither` **[number][12]** level of Floyd-Steinberg error diffusion, sets `palette` to `true` (optional, default `1.0`)
+    *   `options.force` **[boolean][10]** force PNG output, otherwise attempt to use input format (optional, default `true`)
 
 ### Examples
 
@@ -278,15 +283,15 @@ Use these WebP options for output image.
 
 *   `options` **[Object][6]?** output options
 
-    *   `options.quality` **[number][9]** quality, integer 1-100 (optional, default `80`)
-    *   `options.alphaQuality` **[number][9]** quality of alpha layer, integer 0-100 (optional, default `100`)
-    *   `options.lossless` **[boolean][7]** use lossless compression mode (optional, default `false`)
-    *   `options.nearLossless` **[boolean][7]** use near_lossless compression mode (optional, default `false`)
-    *   `options.smartSubsample` **[boolean][7]** use high quality chroma subsampling (optional, default `false`)
-    *   `options.effort` **[number][9]** CPU effort, between 0 (fastest) and 6 (slowest) (optional, default `4`)
-    *   `options.loop` **[number][9]** number of animation iterations, use 0 for infinite animation (optional, default `0`)
-    *   `options.delay` **([number][9] | [Array][10]<[number][9]>)?** delay(s) between animation frames (in milliseconds)
-    *   `options.force` **[boolean][7]** force WebP output, otherwise attempt to use input format (optional, default `true`)
+    *   `options.quality` **[number][12]** quality, integer 1-100 (optional, default `80`)
+    *   `options.alphaQuality` **[number][12]** quality of alpha layer, integer 0-100 (optional, default `100`)
+    *   `options.lossless` **[boolean][10]** use lossless compression mode (optional, default `false`)
+    *   `options.nearLossless` **[boolean][10]** use near_lossless compression mode (optional, default `false`)
+    *   `options.smartSubsample` **[boolean][10]** use high quality chroma subsampling (optional, default `false`)
+    *   `options.effort` **[number][12]** CPU effort, between 0 (fastest) and 6 (slowest) (optional, default `4`)
+    *   `options.loop` **[number][12]** number of animation iterations, use 0 for infinite animation (optional, default `0`)
+    *   `options.delay` **([number][12] | [Array][13]<[number][12]>)?** delay(s) between animation frames (in milliseconds)
+    *   `options.force` **[boolean][10]** force WebP output, otherwise attempt to use input format (optional, default `true`)
 
 ### Examples
 
@@ -318,13 +323,13 @@ The first entry in the palette is reserved for transparency.
 
 *   `options` **[Object][6]?** output options
 
-    *   `options.colours` **[number][9]** maximum number of palette entries, including transparency, between 2 and 256 (optional, default `256`)
-    *   `options.colors` **[number][9]** alternative spelling of `options.colours` (optional, default `256`)
-    *   `options.effort` **[number][9]** CPU effort, between 1 (fastest) and 10 (slowest) (optional, default `7`)
-    *   `options.dither` **[number][9]** level of Floyd-Steinberg error diffusion, between 0 (least) and 1 (most) (optional, default `1.0`)
-    *   `options.loop` **[number][9]** number of animation iterations, use 0 for infinite animation (optional, default `0`)
-    *   `options.delay` **([number][9] | [Array][10]<[number][9]>)?** delay(s) between animation frames (in milliseconds)
-    *   `options.force` **[boolean][7]** force GIF output, otherwise attempt to use input format (optional, default `true`)
+    *   `options.colours` **[number][12]** maximum number of palette entries, including transparency, between 2 and 256 (optional, default `256`)
+    *   `options.colors` **[number][12]** alternative spelling of `options.colours` (optional, default `256`)
+    *   `options.effort` **[number][12]** CPU effort, between 1 (fastest) and 10 (slowest) (optional, default `7`)
+    *   `options.dither` **[number][12]** level of Floyd-Steinberg error diffusion, between 0 (least) and 1 (most) (optional, default `1.0`)
+    *   `options.loop` **[number][12]** number of animation iterations, use 0 for infinite animation (optional, default `0`)
+    *   `options.delay` **([number][12] | [Array][13]<[number][12]>)?** delay(s) between animation frames (in milliseconds)
+    *   `options.force` **[boolean][10]** force GIF output, otherwise attempt to use input format (optional, default `true`)
 
 ### Examples
 
@@ -332,7 +337,7 @@ The first entry in the palette is reserved for transparency.
 // Convert PNG to GIF
 await sharp(pngBuffer)
   .gif()
-  .toBuffer());
+  .toBuffer();
 ```
 
 ```javascript
@@ -363,16 +368,16 @@ Use these JP2 options for output image.
 
 Requires libvips compiled with support for OpenJPEG.
 The prebuilt binaries do not include this - see
-[installing a custom libvips][11].
+[installing a custom libvips][14].
 
 ### Parameters
 
 *   `options` **[Object][6]?** output options
 
-    *   `options.quality` **[number][9]** quality, integer 1-100 (optional, default `80`)
-    *   `options.lossless` **[boolean][7]** use lossless compression mode (optional, default `false`)
-    *   `options.tileWidth` **[number][9]** horizontal tile size (optional, default `512`)
-    *   `options.tileHeight` **[number][9]** vertical tile size (optional, default `512`)
+    *   `options.quality` **[number][12]** quality, integer 1-100 (optional, default `80`)
+    *   `options.lossless` **[boolean][10]** use lossless compression mode (optional, default `false`)
+    *   `options.tileWidth` **[number][12]** horizontal tile size (optional, default `512`)
+    *   `options.tileHeight` **[number][12]** vertical tile size (optional, default `512`)
     *   `options.chromaSubsampling` **[string][2]** set to '4:2:0' to use chroma subsampling (optional, default `'4:4:4'`)
 
 ### Examples
@@ -412,18 +417,18 @@ The `density` can be set in pixels/inch via [withMetadata][1] instead of providi
 
 *   `options` **[Object][6]?** output options
 
-    *   `options.quality` **[number][9]** quality, integer 1-100 (optional, default `80`)
-    *   `options.force` **[boolean][7]** force TIFF output, otherwise attempt to use input format (optional, default `true`)
+    *   `options.quality` **[number][12]** quality, integer 1-100 (optional, default `80`)
+    *   `options.force` **[boolean][10]** force TIFF output, otherwise attempt to use input format (optional, default `true`)
     *   `options.compression` **[string][2]** compression options: lzw, deflate, jpeg, ccittfax4 (optional, default `'jpeg'`)
     *   `options.predictor` **[string][2]** compression predictor options: none, horizontal, float (optional, default `'horizontal'`)
-    *   `options.pyramid` **[boolean][7]** write an image pyramid (optional, default `false`)
-    *   `options.tile` **[boolean][7]** write a tiled tiff (optional, default `false`)
-    *   `options.tileWidth` **[number][9]** horizontal tile size (optional, default `256`)
-    *   `options.tileHeight` **[number][9]** vertical tile size (optional, default `256`)
-    *   `options.xres` **[number][9]** horizontal resolution in pixels/mm (optional, default `1.0`)
-    *   `options.yres` **[number][9]** vertical resolution in pixels/mm (optional, default `1.0`)
+    *   `options.pyramid` **[boolean][10]** write an image pyramid (optional, default `false`)
+    *   `options.tile` **[boolean][10]** write a tiled tiff (optional, default `false`)
+    *   `options.tileWidth` **[number][12]** horizontal tile size (optional, default `256`)
+    *   `options.tileHeight` **[number][12]** vertical tile size (optional, default `256`)
+    *   `options.xres` **[number][12]** horizontal resolution in pixels/mm (optional, default `1.0`)
+    *   `options.yres` **[number][12]** vertical resolution in pixels/mm (optional, default `1.0`)
     *   `options.resolutionUnit` **[string][2]** resolution unit options: inch, cm (optional, default `'inch'`)
-    *   `options.bitdepth` **[number][9]** reduce bitdepth to 1, 2 or 4 bit (optional, default `8`)
+    *   `options.bitdepth` **[number][12]** reduce bitdepth to 1, 2 or 4 bit (optional, default `8`)
 
 ### Examples
 
@@ -455,9 +460,9 @@ AVIF image sequences are not supported.
 
 *   `options` **[Object][6]?** output options
 
-    *   `options.quality` **[number][9]** quality, integer 1-100 (optional, default `50`)
-    *   `options.lossless` **[boolean][7]** use lossless compression (optional, default `false`)
-    *   `options.effort` **[number][9]** CPU effort, between 0 (fastest) and 9 (slowest) (optional, default `4`)
+    *   `options.quality` **[number][12]** quality, integer 1-100 (optional, default `50`)
+    *   `options.lossless` **[boolean][10]** use lossless compression (optional, default `false`)
+    *   `options.effort` **[number][12]** CPU effort, between 0 (fastest) and 9 (slowest) (optional, default `4`)
     *   `options.chromaSubsampling` **[string][2]** set to '4:2:0' to use chroma subsampling (optional, default `'4:4:4'`)
 
 <!---->
@@ -481,10 +486,10 @@ globally-installed libvips compiled with support for libheif, libde265 and x265.
 
 *   `options` **[Object][6]?** output options
 
-    *   `options.quality` **[number][9]** quality, integer 1-100 (optional, default `50`)
+    *   `options.quality` **[number][12]** quality, integer 1-100 (optional, default `50`)
     *   `options.compression` **[string][2]** compression format: av1, hevc (optional, default `'av1'`)
-    *   `options.lossless` **[boolean][7]** use lossless compression (optional, default `false`)
-    *   `options.effort` **[number][9]** CPU effort, between 0 (fastest) and 9 (slowest) (optional, default `4`)
+    *   `options.lossless` **[boolean][10]** use lossless compression (optional, default `false`)
+    *   `options.effort` **[number][12]** CPU effort, between 0 (fastest) and 9 (slowest) (optional, default `4`)
     *   `options.chromaSubsampling` **[string][2]** set to '4:2:0' to use chroma subsampling (optional, default `'4:4:4'`)
 
 <!---->
@@ -540,16 +545,16 @@ Use a `.zip` or `.szi` file extension with `toFile` to write to a compressed arc
 
 *   `options` **[Object][6]?** 
 
-    *   `options.size` **[number][9]** tile size in pixels, a value between 1 and 8192. (optional, default `256`)
-    *   `options.overlap` **[number][9]** tile overlap in pixels, a value between 0 and 8192. (optional, default `0`)
-    *   `options.angle` **[number][9]** tile angle of rotation, must be a multiple of 90. (optional, default `0`)
-    *   `options.background` **([string][2] | [Object][6])** background colour, parsed by the [color][12] module, defaults to white without transparency. (optional, default `{r:255,g:255,b:255,alpha:1}`)
+    *   `options.size` **[number][12]** tile size in pixels, a value between 1 and 8192. (optional, default `256`)
+    *   `options.overlap` **[number][12]** tile overlap in pixels, a value between 0 and 8192. (optional, default `0`)
+    *   `options.angle` **[number][12]** tile angle of rotation, must be a multiple of 90. (optional, default `0`)
+    *   `options.background` **([string][2] | [Object][6])** background colour, parsed by the [color][15] module, defaults to white without transparency. (optional, default `{r:255,g:255,b:255,alpha:1}`)
     *   `options.depth` **[string][2]?** how deep to make the pyramid, possible values are `onepixel`, `onetile` or `one`, default based on layout.
-    *   `options.skipBlanks` **[number][9]** threshold to skip tile generation, a value 0 - 255 for 8-bit images or 0 - 65535 for 16-bit images (optional, default `-1`)
+    *   `options.skipBlanks` **[number][12]** threshold to skip tile generation, a value 0 - 255 for 8-bit images or 0 - 65535 for 16-bit images (optional, default `-1`)
     *   `options.container` **[string][2]** tile container, with value `fs` (filesystem) or `zip` (compressed file). (optional, default `'fs'`)
     *   `options.layout` **[string][2]** filesystem layout, possible values are `dz`, `iiif`, `iiif3`, `zoomify` or `google`. (optional, default `'dz'`)
-    *   `options.centre` **[boolean][7]** centre image in tile. (optional, default `false`)
-    *   `options.center` **[boolean][7]** alternative spelling of centre. (optional, default `false`)
+    *   `options.centre` **[boolean][10]** centre image in tile. (optional, default `false`)
+    *   `options.center` **[boolean][10]** alternative spelling of centre. (optional, default `false`)
     *   `options.id` **[string][2]** when `layout` is `iiif`/`iiif3`, sets the `@id`/`id` attribute of `info.json` (optional, default `'https://example.com/iiif'`)
 
 ### Examples
@@ -582,7 +587,7 @@ Time spent waiting for a libuv thread to become available is not included.
 
 *   `options` **[Object][6]** 
 
-    *   `options.seconds` **[number][9]** Number of seconds after which processing will be stopped
+    *   `options.seconds` **[number][12]** Number of seconds after which processing will be stopped
 
 Returns **Sharp** 
 
@@ -602,14 +607,20 @@ Returns **Sharp**
 
 [6]: https://developer.mozilla.org/docs/Web/JavaScript/Reference/Global_Objects/Object
 
-[7]: https://developer.mozilla.org/docs/Web/JavaScript/Reference/Global_Objects/Boolean
+[7]: #toformat
 
-[8]: https://nodejs.org/api/buffer.html
+[8]: #jpeg
 
-[9]: https://developer.mozilla.org/docs/Web/JavaScript/Reference/Global_Objects/Number
+[9]: #png
 
-[10]: https://developer.mozilla.org/docs/Web/JavaScript/Reference/Global_Objects/Array
+[10]: https://developer.mozilla.org/docs/Web/JavaScript/Reference/Global_Objects/Boolean
 
-[11]: https://sharp.pixelplumbing.com/install#custom-libvips
+[11]: https://nodejs.org/api/buffer.html
 
-[12]: https://www.npmjs.org/package/color
+[12]: https://developer.mozilla.org/docs/Web/JavaScript/Reference/Global_Objects/Number
+
+[13]: https://developer.mozilla.org/docs/Web/JavaScript/Reference/Global_Objects/Array
+
+[14]: https://sharp.pixelplumbing.com/install#custom-libvips
+
+[15]: https://www.npmjs.org/package/color

docs/api-resize.md

@@ -46,7 +46,7 @@ Possible interpolation kernels are:
     *   `options.height` **[String][10]?** alternative means of specifying `height`. If both are present this take priority.
     *   `options.fit` **[String][10]** how the image should be resized to fit both provided dimensions, one of `cover`, `contain`, `fill`, `inside` or `outside`. (optional, default `'cover'`)
     *   `options.position` **[String][10]** position, gravity or strategy to use when `fit` is `cover` or `contain`. (optional, default `'centre'`)
-    *   `options.background` **([String][10] | [Object][9])** background colour when using a `fit` of `contain`, parsed by the [color][11] module, defaults to black without transparency. (optional, default `{r:0,g:0,b:0,alpha:1}`)
+    *   `options.background` **([String][10] | [Object][9])** background colour when `fit` is `contain`, parsed by the [color][11] module, defaults to black without transparency. (optional, default `{r:0,g:0,b:0,alpha:1}`)
     *   `options.kernel` **[String][10]** the kernel to use for image reduction. (optional, default `'lanczos3'`)
     *   `options.withoutEnlargement` **[Boolean][12]** do not enlarge if the width *or* height are already less than the specified dimensions, equivalent to GraphicsMagick's `>` geometry option. (optional, default `false`)
     *   `options.withoutReduction` **[Boolean][12]** do not reduce if the width *or* height are already greater than the specified dimensions, equivalent to GraphicsMagick's `<` geometry option. (optional, default `false`)

docs/api-utility.md

@@ -95,7 +95,11 @@ Returns **[Object][1]**
 ## concurrency
 
 Gets or, when a concurrency is provided, sets
-the number of threads *libvips'* should create to process each image.
+the maximum number of threads *libvips* should use to process *each image*.
+These are from a thread pool managed by glib,
+which helps avoid the overhead of creating new threads.
+
+This method always returns the current concurrency.
 
 The default value is the number of CPU cores,
 except when using glibc-based Linux without jemalloc,
@@ -103,10 +107,19 @@ where the default is `1` to help reduce memory fragmentation.
 
 A value of `0` will reset this to the number of CPU cores.
 
-The maximum number of images that can be processed in parallel
-is limited by libuv's `UV_THREADPOOL_SIZE` environment variable.
+Some image format libraries spawn additional threads,
+e.g. libaom manages its own 4 threads when encoding AVIF images,
+and these are independent of the value set here.
 
-This method always returns the current concurrency.
+The maximum number of images that sharp can process in parallel
+is controlled by libuv's `UV_THREADPOOL_SIZE` environment variable,
+which defaults to 4.
+
+[https://nodejs.org/api/cli.html#uv_threadpool_sizesize][12]
+
+For example, by default, a machine with 8 CPU cores will process
+4 images in parallel and use up to 8 threads per image,
+so there will be up to 32 concurrent threads.
 
 ### Parameters
 
@@ -199,3 +212,5 @@ Returns **[boolean][10]**
 [10]: https://developer.mozilla.org/docs/Web/JavaScript/Reference/Global_Objects/Boolean
 
 [11]: https://developer.mozilla.org/docs/Web/JavaScript/Reference/Global_Objects/Number
+
+[12]: https://nodejs.org/api/cli.html#uv_threadpool_sizesize

docs/changelog.md

@@ -4,6 +4,73 @@
 
 Requires libvips v8.12.2
 
+### v0.30.7 - 22nd June 2022
+
+* Ensure tiled composition always works with outside resizing.
+  [#3227](https://github.com/lovell/sharp/issues/3227)
+
+* Allow WebP encoding effort of 0.
+  [#3261](https://github.com/lovell/sharp/pull/3261)
+  [@AlexanderTheGrey](https://github.com/AlexanderTheGrey)
+
+* Prevent upsampling via libwebp.
+  [#3267](https://github.com/lovell/sharp/pull/3267)
+  [@blacha](https://github.com/blacha)
+
+### v0.30.6 - 30th May 2022
+
+* Allow values for `limitInputPixels` larger than 32-bit.
+  [#3238](https://github.com/lovell/sharp/issues/3238)
+
+* Ensure brew-installed `vips` can be detected (regression in 0.30.5).
+  [#3239](https://github.com/lovell/sharp/issues/3239)
+
+### v0.30.5 - 23rd May 2022
+
+* Install: pass `PKG_CONFIG_PATH` via env rather than substitution.
+  [@dwisiswant0](https://github.com/dwisiswant0)
+
+* Add support for `--libc` flag to improve cross-platform installation.
+  [#3160](https://github.com/lovell/sharp/pull/3160)
+  [@joonamo](https://github.com/joonamo)
+
+* Allow installation of prebuilt libvips binaries from filesystem.
+  [#3196](https://github.com/lovell/sharp/pull/3196)
+  [@ankurparihar](https://github.com/ankurparihar)
+
+* Fix rotate-then-extract for EXIF orientation 2.
+  [#3218](https://github.com/lovell/sharp/pull/3218)
+  [@jakob0fischl](https://github.com/jakob0fischl)
+
+### v0.30.4 - 18th April 2022
+
+* Increase control over sensitivity to invalid images via `failOn`, deprecate `failOnError` (equivalent to `failOn: 'warning'`).
+
+* Ensure `create` input image has correct bit depth and colour space.
+  [#3139](https://github.com/lovell/sharp/issues/3139)
+
+* Add support for `TypedArray` input with `byteOffset` and `length`.
+  [#3146](https://github.com/lovell/sharp/pull/3146)
+  [@codepage949](https://github.com/codepage949)
+
+* Improve error message when attempting to render SVG input greater than 32767x32767.
+  [#3167](https://github.com/lovell/sharp/issues/3167)
+
+* Add missing file name to 'Input file is missing' error message.
+  [#3178](https://github.com/lovell/sharp/pull/3178)
+  [@Brodan](https://github.com/Brodan)
+
+### v0.30.3 - 14th March 2022
+
+* Allow `sharpen` options to be provided more consistently as an Object.
+  [#2561](https://github.com/lovell/sharp/issues/2561)
+
+* Expose `x1`, `y2` and `y3` parameters of `sharpen` operation.
+  [#2935](https://github.com/lovell/sharp/issues/2935)
+
+* Prevent double unpremultiply with some composite blend modes (regression in 0.30.2).
+  [#3118](https://github.com/lovell/sharp/issues/3118)
+
 ### v0.30.2 - 2nd March 2022
 
 * Improve performance and accuracy when compositing multiple images.

docs/humans.txt

@@ -236,3 +236,21 @@ GitHub: https://github.com/gforge
 
 Name: Chris Banks
 GitHub: https://github.com/christopherbradleybanks
+
+Name: codepage949
+GitHub: https://github.com/codepage949
+
+Name: Chris Hranj
+GitHub: https://github.com/Brodan
+
+Name: Ankur Parihar
+GitHub: https://github.com/ankurparihar
+
+Name: Joona Heinikoski
+GitHub: https://github.com/joonamo
+
+Name: AlexanderTheGrey
+GitHub: https://github.com/AlexanderTheGrey
+
+Name: Blayne Chard
+GitHub: https://github.com/blacha

docs/index.html

@@ -6,19 +6,13 @@
   <meta name="viewport" content="width=device-width, initial-scale=1, shrink-to-fit=no">
   <meta name="description" content="Resize large images in common formats to smaller, web-friendly JPEG, PNG, WebP, GIF and AVIF images of varying dimensions">
   <meta http-equiv="Content-Security-Policy" content="default-src 'self'; object-src 'none'; style-src 'unsafe-inline';
-    img-src 'unsafe-inline' data: https://pixel.plumbing/px/ https://cdn.jsdelivr.net/gh/lovell/ https://www.google-analytics.com;
+    img-src 'unsafe-inline' data: https://cdn.jsdelivr.net/gh/lovell/ https://www.google-analytics.com;
     connect-src 'self' https://www.google-analytics.com;
     script-src 'self' 'unsafe-inline' 'unsafe-eval'
       https://www.google-analytics.com/analytics.js;">
-  <link rel="icon" type="image/png" href="https://pixel.plumbing/px/32x32/sharp-logo.svg">
-  <link rel="apple-touch-icon-precomposed" sizes="152x152" href="https://pixel.plumbing/px/152x152/sharp-logo.svg">
-  <link rel="apple-touch-icon-precomposed" sizes="144x144" href="https://pixel.plumbing/px/144x144/sharp-logo.svg">
-  <link rel="apple-touch-icon-precomposed" sizes="120x120" href="https://pixel.plumbing/px/120x120/sharp-logo.svg">
-  <link rel="apple-touch-icon-precomposed" sizes="114x114" href="https://pixel.plumbing/px/114x114/sharp-logo.svg">
-  <link rel="apple-touch-icon-precomposed" sizes="72x72" href="https://pixel.plumbing/px/72x72/sharp-logo.svg">
-  <link rel="apple-touch-icon-precomposed" href="https://pixel.plumbing/px/57x57/sharp-logo.svg">
+  <link rel="icon" type="image/svg+xml" href="https://cdn.jsdelivr.net/gh/lovell/sharp@main/docs/image/sharp-logo.svg">
+  <link rel="icon" type="image/png" sizes="32x32" href="https://cdn.jsdelivr.net/gh/lovell/sharp@main/docs/image/sharp-logo.png">
   <link rel="author" href="/humans.txt" type="text/plain">
-  <link rel="dns-prefetch" href="https://pixel.plumbing">
   <link rel="dns-prefetch" href="https://www.google-analytics.com">
   <script type="application/ld+json">
   {
@@ -124,7 +118,7 @@
       router: { mode: 'history' },
       logo: '<div style="display:flex;align-items:center">'
         + '<strong>sharp</strong> '
-        + '<img src="https://pixel.plumbing/px/16x16/sharp-logo.svg" style="padding:8px" alt="#"> '
+        + '<img src="https://cdn.jsdelivr.net/gh/lovell/sharp@main/docs/image/sharp-logo.svg" style="padding:8px" width="32" height="32" alt="#"> '
         + '<span style="opacity:0.8;white-space:pre" class="shorten-strapline">High performance </span> '
         + '<span style="opacity:0.8">Node.js image processing</span> '
         + '</div>',

docs/install.md

@@ -57,7 +57,7 @@ When using npm v7 or later, the user running `npm install` must own the director
 
 The `npm install --ignore-scripts=false` flag must be used when `npm` has been configured to ignore installation scripts.
 
-Check the output of running `npm install --verbose sharp` for useful error messages.
+Check the output of running `npm install --verbose --foreground-scripts sharp` for useful error messages.
 
 ## Apple M1
 
@@ -74,20 +74,36 @@ The target platform and/or architecture can be manually selected using the follo
 npm install --platform=... --arch=... --arm-version=... sharp
 ```
 
-* `--platform`: one of `linux`, `linuxmusl`, `darwin` or `win32`.
+* `--platform`: one of `linux`, `darwin` or `win32`.
 * `--arch`: one of `x64`, `ia32`, `arm` or `arm64`.
 * `--arm-version`: one of `6`, `7` or `8` (`arm` defaults to `6`, `arm64` defaults to `8`).
+* `--libc`: one of `glibc` or `musl`. This option only works with platform `linux`, defaults to `glibc`
 * `--sharp-install-force`: skip version compatibility and Subresource Integrity checks.
 
 These values can also be set via environment variables,
-`npm_config_platform`, `npm_config_arch`, `npm_config_arm_version`
+`npm_config_platform`, `npm_config_arch`, `npm_config_arm_version`, `npm_config_libc`
 and `SHARP_INSTALL_FORCE` respectively.
 
 For example, if the target machine has a 64-bit ARM CPU and is running Alpine Linux,
 use the following flags:
 
 ```sh
-npm install --arch=arm64 --platform=linuxmusl sharp
+npm install --arch=arm64 --platform=linux --libc=musl sharp
+```
+
+If the current machine is Alpine Linux and the target machine is Debian Linux on x64 cpu,
+use the following flags:
+
+```sh
+npm install --arch=x64 --platform=linux --libc=glibc sharp
+```
+
+Multiple platforms and architectures can be supported within the same installation tree.
+The following example for macOS installs x64 binaries then adds (via a rebuild) arm64 binaries:
+
+```sh
+npm install --platform=darwin --arch=x64 sharp
+npm rebuild --platform=darwin --arch=arm64 sharp
 ```
 
 ## Custom libvips
@@ -96,8 +112,8 @@ To use a custom, globally-installed version of libvips instead of the provided b
 make sure it is at least the version listed under `config.libvips` in the `package.json` file
 and that it can be located using `pkg-config --modversion vips-cpp`.
 
-For help compiling libvips from source, please see
-[https://libvips.github.io/libvips/install.html#building-libvips-from-a-source-tarball](https://libvips.github.io/libvips/install.html#building-libvips-from-a-source-tarball).
+For help compiling libvips and its dependencies, please see
+[building libvips from source](https://www.libvips.org/install.html#building-libvips-from-source).
 
 The use of a globally-installed libvips is unsupported on Windows.
 
@@ -118,6 +134,8 @@ Building from source requires:
 
 This is an advanced approach that most people will not require.
 
+### Prebuilt sharp binaries
+
 To install the prebuilt sharp binaries from a custom URL,
 set the `sharp_binary_host` npm config option
 or the `npm_config_sharp_binary_host` environment variable.
@@ -126,14 +144,37 @@ To install the prebuilt sharp binaries from a directory on the local filesystem,
 set the `sharp_local_prebuilds` npm config option
 or the `npm_config_sharp_local_prebuilds` environment variable.
 
+URL example:
+if `sharp_binary_host` is set to `https://hostname/path`
+and the sharp version is `1.2.3` then the resultant URL will be
+`https://hostname/path/sharp-v1.2.3-napi-v5-platform-arch.tar.gz`.
+
+Filename example:
+if `sharp_local_prebuilds` is set to `/path`
+and the sharp version is `1.2.3` then the resultant filename will be
+`/path/sharp-v1.2.3-napi-v5-platform-arch.tar.gz`.
+
+### Prebuilt libvips binaries
+
 To install the prebuilt libvips binaries from a custom URL,
 set the `sharp_libvips_binary_host` npm config option
 or the `npm_config_sharp_libvips_binary_host` environment variable.
 
-The version subpath and file name are appended to these.
-For example, if `sharp_libvips_binary_host` is set to `https://hostname/path`
-and the libvips version is `1.2.3` then the resultant URL will be
-`https://hostname/path/v1.2.3/libvips-1.2.3-platform-arch.tar.br`.
+To install the prebuilt libvips binaries from a directory on the local filesystem,
+set the `sharp_libvips_local_prebuilds` npm config option
+or the `npm_config_sharp_libvips_local_prebuilds` environment variable.
+
+The version subpath and filename are appended to these.
+
+URL example:
+if `sharp_libvips_binary_host` is set to `https://hostname/path`
+and the libvips version is `4.5.6` then the resultant URL will be
+`https://hostname/path/v4.5.6/libvips-4.5.6-platform-arch.tar.br`.
+
+Filename example:
+if `sharp_libvips_local_prebuilds` is set to `/path`
+and the libvips version is `4.5.6` then the resultant filename will be
+`/path/v4.5.6/libvips-4.5.6-platform-arch.tar.br`.
 
 See the Chinese mirror below for a further example.
 
@@ -207,15 +248,18 @@ run the following additional command after `npm install`:
 
 ```sh
 npm install
-SHARP_IGNORE_GLOBAL_LIBVIPS=1 npm install --arch=x64 --platform=linux sharp
+rm -rf node_modules/sharp
+SHARP_IGNORE_GLOBAL_LIBVIPS=1 npm install --arch=x64 --platform=linux --libc=glibc sharp
 ```
 
 To get the best performance select the largest memory available.
 A 1536 MB function provides ~12x more CPU time than a 128 MB function.
 
-## Webpack
+## Bundlers
 
-Ensure sharp is added to the
+### webpack
+
+Ensure sharp is excluded from bundling via the
 [externals](https://webpack.js.org/configuration/externals/)
 configuration.
 
@@ -225,13 +269,38 @@ externals: {
 }
 ```
 
+### esbuild
+
+Ensure sharp is excluded from bundling via the
+[external](https://esbuild.github.io/api/#external)
+configuration.
+
+```js
+buildSync({
+  entryPoints: ['app.js'],
+  bundle: true,
+  platform: 'node',
+  external: ['sharp'],
+})
+```
+
+```sh
+esbuild app.js --bundle --platform=node --external:sharp
+```
+
 ## Worker threads
 
-The main thread must call `require('sharp')`
-before worker threads are created
-to ensure shared libraries remain loaded in memory
+On some platforms, including glibc-based Linux,
+the main thread must call `require('sharp')`
+_before_ worker threads are created.
+This is to ensure shared libraries remain loaded in memory
 until after all threads are complete.
 
+Without this, the following error may occur:
+```
+Module did not self-register
+```
+
 ## Known conflicts
 
 ### Canvas and Windows

docs/search-index/extract.js

@@ -9,7 +9,7 @@ const extractDescription = (str) =>
     .replace(/\s+/g, ' ')
     .replace(/[^A-Za-z0-9_/\-,. ]/g, '')
     .replace(/\s+/g, ' ')
-    .substr(0, 180)
+    .substring(0, 200)
     .trim();
 
 const extractParameters = (str) =>

docs/search-index/stop-words.js

@@ -21,6 +21,7 @@ module.exports = [
   'can',
   'containing',
   'contains',
+  'created',
   'current',
   'date',
   'default',
@@ -43,6 +44,8 @@ module.exports = [
   'how',
   'image',
   'implies',
+  'include',
+  'including',
   'involve',
   'its',
   'last',
@@ -69,6 +72,7 @@ module.exports = [
   'provided',
   'ready',
   'requires',
+  'requiresharp',
   'returned',
   'same',
   'see',
@@ -77,6 +81,7 @@ module.exports = [
   'should',
   'since',
   'site',
+  'some',
   'specified',
   'spelling',
   'such',

install/libvips.js

@@ -35,6 +35,7 @@ const hasSharpPrebuild = [
 ];
 
 const { minimumLibvipsVersion, minimumLibvipsVersionLabelled } = libvips;
+const localLibvipsDir = process.env.npm_config_sharp_libvips_local_prebuilds || '';
 const distHost = process.env.npm_config_sharp_libvips_binary_host || 'https://github.com/lovell/sharp-libvips/releases/download';
 const distBaseUrl = process.env.npm_config_sharp_dist_base_url || process.env.SHARP_DIST_BASE_URL || `${distHost}/v${minimumLibvipsVersionLabelled}/`;
 const installationForced = !!(process.env.npm_config_sharp_install_force || process.env.SHARP_INSTALL_FORCE);
@@ -42,7 +43,9 @@ const installationForced = !!(process.env.npm_config_sharp_install_force || proc
 const fail = function (err) {
   libvips.log(err);
   if (err.code === 'EACCES') {
-    libvips.log('Are you trying to install as a root or sudo user? Try again with the --unsafe-perm flag');
+    libvips.log('Are you trying to install as a root or sudo user?');
+    libvips.log('- For npm <= v6, try again with the "--unsafe-perm" flag');
+    libvips.log('- For npm >= v8, the user must own the directory "npm install" is run in');
   }
   libvips.log('Please see https://sharp.pixelplumbing.com/install for required dependencies');
   process.exit(1);
@@ -156,6 +159,11 @@ try {
     if (fs.existsSync(tarPathCache)) {
       libvips.log(`Using cached ${tarPathCache}`);
       extractTarball(tarPathCache, platformAndArch);
+    } else if (localLibvipsDir) {
+      // If localLibvipsDir is given try to use binaries from local directory
+      const tarPathLocal = path.join(path.resolve(localLibvipsDir), `v${minimumLibvipsVersionLabelled}`, tarFilename);
+      libvips.log(`Using local libvips from ${tarPathLocal}`);
+      extractTarball(tarPathLocal, platformAndArch);
     } else {
       const url = distBaseUrl + tarFilename;
       libvips.log(`Downloading ${url}`);

lib/colour.js

@@ -19,6 +19,11 @@ const colourspace = {
  * Tint the image using the provided chroma while preserving the image luminance.
  * An alpha channel may be present and will be unchanged by the operation.
  *
+ * @example
+ * const output = await sharp(input)
+ *   .tint({ r: 255, g: 240, b: 16 })
+ *   .toBuffer();
+ *
  * @param {string|Object} rgb - parsed by the [color](https://www.npmjs.org/package/color) module to extract chroma values.
  * @returns {Sharp}
  * @throws {Error} Invalid parameter
@@ -37,6 +42,10 @@ function tint (rgb) {
  * This may be overridden by other sharp operations such as `toColourspace('b-w')`,
  * which will produce an output image containing one color channel.
  * An alpha channel may be present, and will be unchanged by the operation.
+ *
+ * @example
+ * const output = await sharp(input).greyscale().toBuffer();
+ *
  * @param {Boolean} [greyscale=true]
  * @returns {Sharp}
  */

lib/composite.js

@@ -50,12 +50,27 @@ const blend = {
  * `hard-light`, `soft-light`, `difference`, `exclusion`.
  *
  * More information about blend modes can be found at
- * https://libvips.github.io/libvips/API/current/libvips-conversion.html#VipsBlendMode
+ * https://www.libvips.org/API/current/libvips-conversion.html#VipsBlendMode
  * and https://www.cairographics.org/operators/
  *
  * @since 0.22.0
  *
  * @example
+ * await sharp(background)
+ *   .composite([
+ *     { input: layer1, gravity: 'northwest' },
+ *     { input: layer2, gravity: 'southeast' },
+ *   ])
+ *   .toFile('combined.png');
+ *
+ * @example
+ * const output = await sharp('input.gif', { animated: true })
+ *   .composite([
+ *     { input: 'overlay.png', tile: true, blend: 'saturate' }
+ *   ])
+ *   .toBuffer();
+ *
+ * @example
  * sharp('input.png')
  *   .rotate(180)
  *   .resize(300)
@@ -89,7 +104,8 @@ const blend = {
  * @param {Number} [images[].raw.width]
  * @param {Number} [images[].raw.height]
  * @param {Number} [images[].raw.channels]
- * @param {boolean} [images[].failOnError=true] - @see {@link /api-constructor#parameters|constructor parameters}
+ * @param {boolean} [images[].animated=false] - Set to `true` to read all frames/pages of an animated image.
+ * @param {string} [images[].failOn='warning'] - @see {@link /api-constructor#parameters|constructor parameters}
  * @param {number|boolean} [images[].limitInputPixels=268402689] - @see {@link /api-constructor#parameters|constructor parameters}
  * @returns {Sharp}
  * @throws {Error} Invalid parameters

lib/constructor.js

@@ -98,8 +98,7 @@ const debuglog = util.debuglog('sharp');
  *  a String containing the filesystem path to an JPEG, PNG, WebP, AVIF, GIF, SVG or TIFF image file.
  *  JPEG, PNG, WebP, AVIF, GIF, SVG, TIFF or raw pixel image data can be streamed into the object when not present.
  * @param {Object} [options] - if present, is an Object with optional attributes.
- * @param {boolean} [options.failOnError=true] - by default halt processing and raise an error when loading invalid images.
- *  Set this flag to `false` if you'd rather apply a "best effort" to decode images, even if the data is corrupt or invalid.
+ * @param {string} [options.failOn='warning'] - level of sensitivity to invalid images, one of (in order of sensitivity): 'none' (least), 'truncated', 'error' or 'warning' (most), highers level imply lower levels.
  * @param {number|boolean} [options.limitInputPixels=268402689] - Do not process input images where the number of pixels
  *  (width x height) exceeds this limit. Assumes image dimensions contained in the input metadata can be trusted.
  *  An integral Number of pixels, zero or false to remove limit, true to use default limit of 268402689 (0x3FFF x 0x3FFF).
@@ -186,8 +185,11 @@ const Sharp = function (input, options) {
     medianSize: 0,
     blurSigma: 0,
     sharpenSigma: 0,
-    sharpenFlat: 1,
-    sharpenJagged: 2,
+    sharpenM1: 1,
+    sharpenM2: 2,
+    sharpenX1: 2,
+    sharpenY2: 10,
+    sharpenY3: 20,
     threshold: 0,
     thresholdGrayscale: true,
     trimThreshold: 0,
@@ -317,9 +319,7 @@ Object.setPrototypeOf(Sharp, stream.Duplex);
  * // Using Promises to know when the pipeline is complete
  * const fs = require("fs");
  * const got = require("got");
- * const sharpStream = sharp({
- *   failOnError: false
- * });
+ * const sharpStream = sharp({ failOn: 'none' });
  *
  * const promises = [];
  *

lib/input.js

@@ -9,9 +9,9 @@ const sharp = require('./sharp');
  * @private
  */
 function _inputOptionsFromObject (obj) {
-  const { raw, density, limitInputPixels, unlimited, sequentialRead, failOnError, animated, page, pages, subifd } = obj;
-  return [raw, density, limitInputPixels, unlimited, sequentialRead, failOnError, animated, page, pages, subifd].some(is.defined)
-    ? { raw, density, limitInputPixels, unlimited, sequentialRead, failOnError, animated, page, pages, subifd }
+  const { raw, density, limitInputPixels, unlimited, sequentialRead, failOn, failOnError, animated, page, pages, subifd } = obj;
+  return [raw, density, limitInputPixels, unlimited, sequentialRead, failOn, failOnError, animated, page, pages, subifd].some(is.defined)
+    ? { raw, density, limitInputPixels, unlimited, sequentialRead, failOn, failOnError, animated, page, pages, subifd }
     : undefined;
 }
 
@@ -21,7 +21,7 @@ function _inputOptionsFromObject (obj) {
  */
 function _createInputDescriptor (input, inputOptions, containerOptions) {
   const inputDescriptor = {
-    failOnError: true,
+    failOn: 'warning',
     limitInputPixels: Math.pow(0x3FFF, 2),
     unlimited: false,
     sequentialRead: false
@@ -39,7 +39,7 @@ function _createInputDescriptor (input, inputOptions, containerOptions) {
     if (input.length === 0) {
       throw Error('Input Bit Array is empty');
     }
-    inputDescriptor.buffer = Buffer.from(input.buffer);
+    inputDescriptor.buffer = Buffer.from(input.buffer, input.byteOffset, input.byteLength);
   } else if (is.plainObject(input) && !is.defined(inputOptions)) {
     // Plain Object descriptor, e.g. create
     inputOptions = input;
@@ -56,14 +56,22 @@ function _createInputDescriptor (input, inputOptions, containerOptions) {
     }`);
   }
   if (is.object(inputOptions)) {
-    // Fail on error
+    // Deprecated: failOnError
     if (is.defined(inputOptions.failOnError)) {
       if (is.bool(inputOptions.failOnError)) {
-        inputDescriptor.failOnError = inputOptions.failOnError;
+        inputDescriptor.failOn = inputOptions.failOnError ? 'warning' : 'none';
       } else {
         throw is.invalidParameterError('failOnError', 'boolean', inputOptions.failOnError);
       }
     }
+    // failOn
+    if (is.defined(inputOptions.failOn)) {
+      if (is.string(inputOptions.failOn) && is.inArray(inputOptions.failOn, ['none', 'truncated', 'error', 'warning'])) {
+        inputDescriptor.failOn = inputOptions.failOn;
+      } else {
+        throw is.invalidParameterError('failOn', 'one of: none, truncated, error, warning', inputOptions.failOn);
+      }
+    }
     // Density
     if (is.defined(inputOptions.density)) {
       if (is.inRange(inputOptions.density, 1, 100000)) {
@@ -78,10 +86,10 @@ function _createInputDescriptor (input, inputOptions, containerOptions) {
         inputDescriptor.limitInputPixels = inputOptions.limitInputPixels
           ? Math.pow(0x3FFF, 2)
           : 0;
-      } else if (is.integer(inputOptions.limitInputPixels) && inputOptions.limitInputPixels >= 0) {
+      } else if (is.integer(inputOptions.limitInputPixels) && is.inRange(inputOptions.limitInputPixels, 0, Number.MAX_SAFE_INTEGER)) {
         inputDescriptor.limitInputPixels = inputOptions.limitInputPixels;
       } else {
-        throw is.invalidParameterError('limitInputPixels', 'integer >= 0', inputOptions.limitInputPixels);
+        throw is.invalidParameterError('limitInputPixels', 'positive integer', inputOptions.limitInputPixels);
       }
     }
     // unlimited
@@ -299,11 +307,11 @@ function _isStreamInput () {
  *
  * - `format`: Name of decoder used to decompress image data e.g. `jpeg`, `png`, `webp`, `gif`, `svg`
  * - `size`: Total size of image in bytes, for Stream and Buffer input only
- * - `width`: Number of pixels wide (EXIF orientation is not taken into consideration)
- * - `height`: Number of pixels high (EXIF orientation is not taken into consideration)
- * - `space`: Name of colour space interpretation e.g. `srgb`, `rgb`, `cmyk`, `lab`, `b-w` [...](https://libvips.github.io/libvips/API/current/VipsImage.html#VipsInterpretation)
+ * - `width`: Number of pixels wide (EXIF orientation is not taken into consideration, see example below)
+ * - `height`: Number of pixels high (EXIF orientation is not taken into consideration, see example below)
+ * - `space`: Name of colour space interpretation e.g. `srgb`, `rgb`, `cmyk`, `lab`, `b-w` [...](https://www.libvips.org/API/current/VipsImage.html#VipsInterpretation)
  * - `channels`: Number of bands e.g. `3` for sRGB, `4` for CMYK
- * - `depth`: Name of pixel depth format e.g. `uchar`, `char`, `ushort`, `float` [...](https://libvips.github.io/libvips/API/current/VipsImage.html#VipsBandFormat)
+ * - `depth`: Name of pixel depth format e.g. `uchar`, `char`, `ushort`, `float` [...](https://www.libvips.org/API/current/VipsImage.html#VipsBandFormat)
  * - `density`: Number of pixels per inch (DPI), if present
  * - `chromaSubsampling`: String containing JPEG chroma subsampling, `4:2:0` or `4:4:4` for RGB, `4:2:0:4` or `4:4:4:4` for CMYK
  * - `isProgressive`: Boolean indicating whether the image is interlaced using a progressive scan
@@ -343,6 +351,17 @@ function _isStreamInput () {
  *     // data contains a WebP image half the width and height of the original JPEG
  *   });
  *
+ * @example
+ * // Based on EXIF rotation metadata, get the right-side-up width and height:
+ *
+ * const size = getNormalSize(await sharp(input).metadata());
+ *
+ * function getNormalSize({ width, height, orientation }) {
+ *   return (orientation || 0) >= 5
+ *     ? { width: height, height: width }
+ *     : { width, height };
+ * }
+ *
  * @param {Function} [callback] - called with the arguments `(err, metadata)`
  * @returns {Promise<Object>|Sharp}
  */
@@ -401,9 +420,9 @@ function metadata (callback) {
  *     - `maxX` (x-coordinate of one of the pixel where the maximum lies)
  *     - `maxY` (y-coordinate of one of the pixel where the maximum lies)
  * - `isOpaque`: Is the image fully opaque? Will be `true` if the image has no alpha channel or if every pixel is fully opaque.
- * - `entropy`: Histogram-based estimation of greyscale entropy, discarding alpha channel if any (experimental)
- * - `sharpness`: Estimation of greyscale sharpness based on the standard deviation of a Laplacian convolution, discarding alpha channel if any (experimental)
- * - `dominant`: Object containing most dominant sRGB colour based on a 4096-bin 3D histogram (experimental)
+ * - `entropy`: Histogram-based estimation of greyscale entropy, discarding alpha channel if any.
+ * - `sharpness`: Estimation of greyscale sharpness based on the standard deviation of a Laplacian convolution, discarding alpha channel if any.
+ * - `dominant`: Object containing most dominant sRGB colour based on a 4096-bin 3D histogram.
  *
  * **Note**: Statistics are derived from the original input image. Any operations performed on the image must first be
  * written to a buffer in order to run `stats` on the result (see third example).

lib/libvips.js

@@ -65,7 +65,13 @@ const isRosetta = function () {
 
 const globalLibvipsVersion = function () {
   if (process.platform !== 'win32') {
-    const globalLibvipsVersion = spawnSync(`PKG_CONFIG_PATH="${pkgConfigPath()}" pkg-config --modversion vips-cpp`, spawnSyncOptions).stdout;
+    const globalLibvipsVersion = spawnSync('pkg-config --modversion vips-cpp', {
+      ...spawnSyncOptions,
+      env: {
+        ...env,
+        PKG_CONFIG_PATH: pkgConfigPath()
+      }
+    }).stdout;
     /* istanbul ignore next */
     return (globalLibvipsVersion || '').trim();
   } else {
@@ -85,7 +91,10 @@ const removeVendoredLibvips = function () {
 
 const pkgConfigPath = function () {
   if (process.platform !== 'win32') {
-    const brewPkgConfigPath = spawnSync('which brew >/dev/null 2>&1 && eval $(brew --env) && echo $PKG_CONFIG_LIBDIR', spawnSyncOptions).stdout || '';
+    const brewPkgConfigPath = spawnSync(
+      'which brew >/dev/null 2>&1 && brew environment --plain | grep PKG_CONFIG_LIBDIR | cut -d" " -f2',
+      spawnSyncOptions
+    ).stdout || '';
     return [
       brewPkgConfigPath.trim(),
       env.PKG_CONFIG_PATH,

lib/operation.js

@@ -63,6 +63,10 @@ function rotate (angle, options) {
 /**
  * Flip the image about the vertical Y axis. This always occurs after rotation, if any.
  * The use of `flip` implies the removal of the EXIF `Orientation` tag, if any.
+ *
+ * @example
+ * const output = await sharp(input).flip().toBuffer();
+ *
  * @param {Boolean} [flip=true]
  * @returns {Sharp}
  */
@@ -74,6 +78,10 @@ function flip (flip) {
 /**
  * Flop the image about the horizontal X axis. This always occurs after rotation, if any.
  * The use of `flop` implies the removal of the EXIF `Orientation` tag, if any.
+ *
+ * @example
+ * const output = await sharp(input).flop().toBuffer();
+ *
  * @param {Boolean} [flop=true]
  * @returns {Sharp}
  */
@@ -185,40 +193,107 @@ function affine (matrix, options) {
  * When a `sigma` is provided, performs a slower, more accurate sharpen of the L channel in the LAB colour space.
  * Separate control over the level of sharpening in "flat" and "jagged" areas is available.
  *
- * @param {number} [sigma] - the sigma of the Gaussian mask, where `sigma = 1 + radius / 2`.
- * @param {number} [flat=1.0] - the level of sharpening to apply to "flat" areas.
- * @param {number} [jagged=2.0] - the level of sharpening to apply to "jagged" areas.
+ * See {@link https://www.libvips.org/API/current/libvips-convolution.html#vips-sharpen|libvips sharpen} operation.
+ *
+ * @example
+ * const data = await sharp(input).sharpen().toBuffer();
+ *
+ * @example
+ * const data = await sharp(input).sharpen({ sigma: 2 }).toBuffer();
+ *
+ * @example
+ * const data = await sharp(input)
+ *   .sharpen({
+ *     sigma: 2,
+ *     m1: 0
+ *     m2: 3,
+ *     x1: 3,
+ *     y2: 15,
+ *     y3: 15,
+ *   })
+ *   .toBuffer();
+ *
+ * @param {Object|number} [options] - if present, is an Object with attributes or (deprecated) a number for `options.sigma`.
+ * @param {number} [options.sigma] - the sigma of the Gaussian mask, where `sigma = 1 + radius / 2`.
+ * @param {number} [options.m1=1.0] - the level of sharpening to apply to "flat" areas.
+ * @param {number} [options.m2=2.0] - the level of sharpening to apply to "jagged" areas.
+ * @param {number} [options.x1=2.0] - threshold between "flat" and "jagged"
+ * @param {number} [options.y2=10.0] - maximum amount of brightening.
+ * @param {number} [options.y3=20.0] - maximum amount of darkening.
+ * @param {number} [flat] - (deprecated) see `options.m1`.
+ * @param {number} [jagged] - (deprecated) see `options.m2`.
  * @returns {Sharp}
  * @throws {Error} Invalid parameters
  */
-function sharpen (sigma, flat, jagged) {
-  if (!is.defined(sigma)) {
+function sharpen (options, flat, jagged) {
+  if (!is.defined(options)) {
     // No arguments: default to mild sharpen
     this.options.sharpenSigma = -1;
-  } else if (is.bool(sigma)) {
-    // Boolean argument: apply mild sharpen?
-    this.options.sharpenSigma = sigma ? -1 : 0;
-  } else if (is.number(sigma) && is.inRange(sigma, 0.01, 10000)) {
-    // Numeric argument: specific sigma
-    this.options.sharpenSigma = sigma;
-    // Control over flat areas
+  } else if (is.bool(options)) {
+    // Deprecated boolean argument: apply mild sharpen?
+    this.options.sharpenSigma = options ? -1 : 0;
+  } else if (is.number(options) && is.inRange(options, 0.01, 10000)) {
+    // Deprecated numeric argument: specific sigma
+    this.options.sharpenSigma = options;
+    // Deprecated control over flat areas
     if (is.defined(flat)) {
       if (is.number(flat) && is.inRange(flat, 0, 10000)) {
-        this.options.sharpenFlat = flat;
+        this.options.sharpenM1 = flat;
       } else {
         throw is.invalidParameterError('flat', 'number between 0 and 10000', flat);
       }
     }
-    // Control over jagged areas
+    // Deprecated control over jagged areas
     if (is.defined(jagged)) {
       if (is.number(jagged) && is.inRange(jagged, 0, 10000)) {
-        this.options.sharpenJagged = jagged;
+        this.options.sharpenM2 = jagged;
       } else {
         throw is.invalidParameterError('jagged', 'number between 0 and 10000', jagged);
       }
     }
+  } else if (is.plainObject(options)) {
+    if (is.number(options.sigma) && is.inRange(options.sigma, 0.01, 10000)) {
+      this.options.sharpenSigma = options.sigma;
+    } else {
+      throw is.invalidParameterError('options.sigma', 'number between 0.01 and 10000', options.sigma);
+    }
+    if (is.defined(options.m1)) {
+      if (is.number(options.m1) && is.inRange(options.m1, 0, 10000)) {
+        this.options.sharpenM1 = options.m1;
+      } else {
+        throw is.invalidParameterError('options.m1', 'number between 0 and 10000', options.m1);
+      }
+    }
+    if (is.defined(options.m2)) {
+      if (is.number(options.m2) && is.inRange(options.m2, 0, 10000)) {
+        this.options.sharpenM2 = options.m2;
+      } else {
+        throw is.invalidParameterError('options.m2', 'number between 0 and 10000', options.m2);
+      }
+    }
+    if (is.defined(options.x1)) {
+      if (is.number(options.x1) && is.inRange(options.x1, 0, 10000)) {
+        this.options.sharpenX1 = options.x1;
+      } else {
+        throw is.invalidParameterError('options.x1', 'number between 0 and 10000', options.x1);
+      }
+    }
+    if (is.defined(options.y2)) {
+      if (is.number(options.y2) && is.inRange(options.y2, 0, 10000)) {
+        this.options.sharpenY2 = options.y2;
+      } else {
+        throw is.invalidParameterError('options.y2', 'number between 0 and 10000', options.y2);
+      }
+    }
+    if (is.defined(options.y3)) {
+      if (is.number(options.y3) && is.inRange(options.y3, 0, 10000)) {
+        this.options.sharpenY3 = options.y3;
+      } else {
+        throw is.invalidParameterError('options.y3', 'number between 0 and 10000', options.y3);
+      }
+    }
   } else {
-    throw is.invalidParameterError('sigma', 'number between 0.01 and 10000', sigma);
+    throw is.invalidParameterError('sigma', 'number between 0.01 and 10000', options);
   }
   return this;
 }
@@ -226,6 +301,13 @@ function sharpen (sigma, flat, jagged) {
 /**
  * Apply median filter.
  * When used without parameters the default window is 3x3.
+ *
+ * @example
+ * const output = await sharp(input).median().toBuffer();
+ *
+ * @example
+ * const output = await sharp(input).median(5).toBuffer();
+ *
  * @param {number} [size=3] square mask size: size x size
  * @returns {Sharp}
  * @throws {Error} Invalid parameters
@@ -338,6 +420,17 @@ function gamma (gamma, gammaOut) {
 
 /**
  * Produce the "negative" of the image.
+ *
+ * @example
+ * const output = await sharp(input)
+ *   .negate()
+ *   .toBuffer();
+ *
+ * @example
+ * const output = await sharp(input)
+ *   .negate({ alpha: false })
+ *   .toBuffer();
+ *
  * @param {Object} [options]
  * @param {Boolean} [options.alpha=true] Whether or not to negate any alpha channel
  * @returns {Sharp}
@@ -356,6 +449,10 @@ function negate (options) {
 
 /**
  * Enhance output image contrast by stretching its luminance to cover the full dynamic range.
+ *
+ * @example
+ * const output = await sharp(input).normalise().toBuffer();
+ *
  * @param {Boolean} [normalise=true]
  * @returns {Sharp}
  */
@@ -366,6 +463,10 @@ function normalise (normalise) {
 
 /**
  * Alternative spelling of normalise.
+ *
+ * @example
+ * const output = await sharp(input).normalize().toBuffer();
+ *
  * @param {Boolean} [normalize=true]
  * @returns {Sharp}
  */
@@ -381,6 +482,14 @@ function normalize (normalize) {
  *
  * @since 0.28.3
  *
+ * @example
+ * const output = await sharp(input)
+ *   .clahe({
+ *     width: 3,
+ *     height: 3,
+ *   })
+ *   .toBuffer();
+ *
  * @param {Object} options
  * @param {number} options.width - integer width of the region in pixels.
  * @param {number} options.height - integer height of the region in pixels.
@@ -590,28 +699,38 @@ function recomb (inputMatrix) {
  * @since 0.22.1
  *
  * @example
- * sharp(input)
+ * // increase brightness by a factor of 2
+ * const output = await sharp(input)
  *   .modulate({
- *     brightness: 2 // increase brightness by a factor of 2
- *   });
+ *     brightness: 2
+ *   })
+ *   .toBuffer();
  *
- * sharp(input)
+ * @example
+ * // hue-rotate by 180 degrees
+ * const output = await sharp(input)
  *   .modulate({
- *     hue: 180 // hue-rotate by 180 degrees
- *   });
+ *     hue: 180
+ *   })
+ *   .toBuffer();
  *
- * sharp(input)
+ * @example
+ * // increase lightness by +50
+ * const output = await sharp(input)
  *   .modulate({
- *     lightness: 50 // increase lightness by +50
- *   });
+ *     lightness: 50
+ *   })
+ *   .toBuffer();
  *
+ * @example
  * // decreate brightness and saturation while also hue-rotating by 90 degrees
- * sharp(input)
+ * const output = await sharp(input)
  *   .modulate({
  *     brightness: 0.5,
  *     saturation: 0.5,
- *     hue: 90
- *   });
+ *     hue: 90,
+ *   })
+ *   .toBuffer();
  *
  * @param {Object} [options]
  * @param {number} [options.brightness] Brightness multiplier

lib/output.js

@@ -82,6 +82,8 @@ function toFile (fileOut, callback) {
  * Write output to a Buffer.
  * JPEG, PNG, WebP, AVIF, TIFF, GIF and raw pixel data output are supported.
  *
+ * Use {@link toFormat} or one of the format-specific functions such as {@link jpeg}, {@link png} etc. to set the output format.
+ *
  * If no explicit format is set, the output format will match the input image, except SVG input which becomes PNG output.
  *
  * By default all metadata will be removed, which includes EXIF-based orientation.
@@ -108,6 +110,7 @@ function toFile (fileOut, callback) {
  *
  * @example
  * sharp(input)
+ *   .png()
  *   .toBuffer({ resolveWithObject: true })
  *   .then(({ data, info }) => { ... })
  *   .catch(err => { ... });
@@ -151,6 +154,8 @@ function toBuffer (options, callback) {
  * The default behaviour, when `withMetadata` is not used, is to convert to the device-independent
  * sRGB colour space and strip all metadata, including the removal of any ICC profile.
  *
+ * EXIF metadata is unsupported for TIFF output.
+ *
  * @example
  * sharp('input.jpg')
  *   .withMetadata()
@@ -490,7 +495,7 @@ function webp (options) {
     if (is.defined(options.smartSubsample)) {
       this._setBooleanOption('webpSmartSubsample', options.smartSubsample);
     }
-    const effort = options.effort || options.reductionEffort;
+    const effort = is.defined(options.effort) ? options.effort : options.reductionEffort;
     if (is.defined(effort)) {
       if (is.integer(effort) && is.inRange(effort, 0, 6)) {
         this.options.webpEffort = effort;
@@ -514,7 +519,7 @@ function webp (options) {
  * // Convert PNG to GIF
  * await sharp(pngBuffer)
  *   .gif()
- *   .toBuffer());
+ *   .toBuffer();
  *
  * @example
  * // Convert animated WebP to animated GIF

lib/platform.js

@@ -7,10 +7,12 @@ const env = process.env;
 module.exports = function () {
   const arch = env.npm_config_arch || process.arch;
   const platform = env.npm_config_platform || process.platform;
-  /* istanbul ignore next */
-  const libc = (platform === 'linux' && detectLibc.isNonGlibcLinuxSync()) ? detectLibc.familySync() : '';
+  const libc = process.env.npm_config_libc ||
+    /* istanbul ignore next */
+    (detectLibc.isNonGlibcLinuxSync() ? detectLibc.familySync() : '');
+  const libcId = platform !== 'linux' || libc === detectLibc.GLIBC ? '' : libc;
 
-  const platformId = [`${platform}${libc}`];
+  const platformId = [`${platform}${libcId}`];
 
   if (arch === 'arm') {
     const fallback = process.versions.electron ? '7' : '6';

lib/resize.js

@@ -211,7 +211,7 @@ function isRotationExpected (options) {
  * @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|Object} [options.background={r: 0, g: 0, b: 0, alpha: 1}] - background colour when `fit` is `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.withoutReduction=false] - do not reduce if the width *or* height are already greater than the specified dimensions, equivalent to GraphicsMagick's `<` geometry option.

lib/sharp.js

@@ -12,8 +12,11 @@ try {
     help.push('- Update Homebrew: "brew update && brew upgrade vips"');
   } else {
     const [platform, arch] = platformAndArch.split('-');
+    if (platform === 'linux' && /Module did not self-register/.test(err.message)) {
+      help.push('- Using worker threads? See https://sharp.pixelplumbing.com/install#worker-threads');
+    }
     help.push(
-      '- Install with the --verbose flag and look for errors: "npm install --ignore-scripts=false --verbose sharp"',
+      '- Install with verbose logging and look for errors: "npm install --ignore-scripts=false --foreground-scripts --verbose sharp"',
       `- Install for the current ${platformAndArch} runtime: "npm install --platform=${platform} --arch=${arch} sharp"`
     );
   }
@@ -21,7 +24,7 @@ try {
     '- Consult the installation documentation: https://sharp.pixelplumbing.com/install'
   );
   // Check loaded
-  if (process.platform === 'win32') {
+  if (process.platform === 'win32' || /symbol/.test(err.message)) {
     const loadedModule = Object.keys(require.cache).find((i) => /[\\/]build[\\/]Release[\\/]sharp(.*)\.node$/.test(i));
     if (loadedModule) {
       const [, loadedPackage] = loadedModule.match(/node_modules[\\/]([^\\/]+)[\\/]/);

lib/utility.js

@@ -103,7 +103,11 @@ cache(true);
 
 /**
  * Gets or, when a concurrency is provided, sets
- * the number of threads _libvips'_ should create to process each image.
+ * the maximum number of threads _libvips_ should use to process _each image_.
+ * These are from a thread pool managed by glib,
+ * which helps avoid the overhead of creating new threads.
+ *
+ * This method always returns the current concurrency.
  *
  * The default value is the number of CPU cores,
  * except when using glibc-based Linux without jemalloc,
@@ -111,10 +115,19 @@ cache(true);
  *
  * A value of `0` will reset this to the number of CPU cores.
  *
- * The maximum number of images that can be processed in parallel
- * is limited by libuv's `UV_THREADPOOL_SIZE` environment variable.
+ * Some image format libraries spawn additional threads,
+ * e.g. libaom manages its own 4 threads when encoding AVIF images,
+ * and these are independent of the value set here.
  *
- * This method always returns the current concurrency.
+ * The maximum number of images that sharp can process in parallel
+ * is controlled by libuv's `UV_THREADPOOL_SIZE` environment variable,
+ * which defaults to 4.
+ *
+ * https://nodejs.org/api/cli.html#uv_threadpool_sizesize
+ *
+ * For example, by default, a machine with 8 CPU cores will process
+ * 4 images in parallel and use up to 8 threads per image,
+ * so there will be up to 32 concurrent threads.
  *
  * @example
  * const threads = sharp.concurrency(); // 4

package.json

@@ -1,7 +1,7 @@
 {
   "name": "sharp",
   "description": "High performance Node.js image processing, the fastest module to resize JPEG, PNG, WebP, GIF, AVIF and TIFF images",
-  "version": "0.30.2",
+  "version": "0.30.7",
   "author": "Lovell Fuller <npm@lovell.info>",
   "homepage": "https://github.com/lovell/sharp",
   "contributors": [
@@ -81,7 +81,9 @@
     "Taneli Vatanen <taneli.vatanen@gmail.com>",
     "Joris Dugué <zaruike10@gmail.com>",
     "Chris Banks <christopher.bradley.banks@gmail.com>",
-    "Ompal Singh <ompal.hitm09@gmail.com>"
+    "Ompal Singh <ompal.hitm09@gmail.com>",
+    "Brodan <christopher.hranj@gmail.com",
+    "Ankur Parihar <ankur.github@gmail.com>"
   ],
   "scripts": {
     "install": "(node install/libvips && node install/dll-copy && prebuild-install) || (node install/can-compile && node-gyp rebuild && node install/dll-copy)",
@@ -126,24 +128,24 @@
     "vips"
   ],
   "dependencies": {
-    "color": "^4.2.1",
+    "color": "^4.2.3",
     "detect-libc": "^2.0.1",
-    "node-addon-api": "^4.3.0",
-    "prebuild-install": "^7.0.1",
-    "semver": "^7.3.5",
+    "node-addon-api": "^5.0.0",
+    "prebuild-install": "^7.1.1",
+    "semver": "^7.3.7",
     "simple-get": "^4.0.1",
     "tar-fs": "^2.1.1",
     "tunnel-agent": "^0.6.0"
   },
   "devDependencies": {
-    "async": "^3.2.3",
+    "async": "^3.2.4",
     "cc": "^3.0.1",
     "decompress-zip": "^0.3.3",
     "documentation": "^13.2.5",
     "exif-reader": "^1.0.3",
     "icc": "^2.0.0",
     "license-checker": "^25.0.1",
-    "mocha": "^9.2.1",
+    "mocha": "^10.0.0",
     "mock-fs": "^5.1.2",
     "nyc": "^15.1.0",
     "prebuild": "^11.0.3",

src/common.cc

@@ -48,6 +48,9 @@ namespace sharp {
   int32_t AttrAsInt32(Napi::Object obj, unsigned int const attr) {
     return obj.Get(attr).As<Napi::Number>().Int32Value();
   }
+  int64_t AttrAsInt64(Napi::Object obj, std::string attr) {
+    return obj.Get(attr).As<Napi::Number>().Int64Value();
+  }
   double AttrAsDouble(Napi::Object obj, std::string attr) {
     return obj.Get(attr).As<Napi::Number>().DoubleValue();
   }
@@ -85,7 +88,9 @@ namespace sharp {
       descriptor->buffer = buffer.Data();
       descriptor->isBuffer = TRUE;
     }
-    descriptor->failOnError = AttrAsBool(input, "failOnError");
+    descriptor->failOn = static_cast<VipsFailOn>(
+      vips_enum_from_nick(nullptr, VIPS_TYPE_FAIL_ON,
+      AttrAsStr(input, "failOn").data()));
     // Density for vector-based input
     if (HasAttr(input, "density")) {
       descriptor->density = AttrAsDouble(input, "density");
@@ -129,7 +134,7 @@ namespace sharp {
       }
     }
     // Limit input images to a given number of pixels, where pixels = width * height
-    descriptor->limitInputPixels = AttrAsUint32(input, "limitInputPixels");
+    descriptor->limitInputPixels = static_cast<uint64_t>(AttrAsInt64(input, "limitInputPixels"));
     // Allow switch from random to sequential access
     descriptor->access = AttrAsBool(input, "sequentialRead") ? VIPS_ACCESS_SEQUENTIAL : VIPS_ACCESS_RANDOM;
     // Remove safety features and allow unlimited SVG/PNG input
@@ -329,7 +334,7 @@ namespace sharp {
           try {
             vips::VOption *option = VImage::option()
               ->set("access", descriptor->access)
-              ->set("fail", descriptor->failOnError);
+              ->set("fail_on", descriptor->failOn);
             if (descriptor->unlimited && (imageType == ImageType::SVG || imageType == ImageType::PNG)) {
               option->set("unlimited", TRUE);
             }
@@ -375,12 +380,6 @@ namespace sharp {
               VImage::option()->set("mean", descriptor->createNoiseMean)->set("sigma", descriptor->createNoiseSigma)));
           }
           image = image.bandjoin(bands);
-          image = image.cast(VipsBandFormat::VIPS_FORMAT_UCHAR);
-          if (channels < 3) {
-            image = image.colourspace(VIPS_INTERPRETATION_B_W);
-          } else {
-            image = image.colourspace(VIPS_INTERPRETATION_sRGB);
-          }
         } else {
           std::vector<double> background = {
             descriptor->createBackground[0],
@@ -392,7 +391,8 @@ namespace sharp {
           }
           image = VImage::new_matrix(descriptor->createWidth, descriptor->createHeight).new_from_image(background);
         }
-        image.get_image()->Type = VIPS_INTERPRETATION_sRGB;
+        image.get_image()->Type = image.guess_interpretation();
+        image = image.cast(VIPS_FORMAT_UCHAR);
         imageType = ImageType::RAW;
       } else {
         // From filesystem
@@ -402,13 +402,13 @@ namespace sharp {
             throw vips::VError("Input file is missing, did you mean "
               "sharp(Buffer.from('" + descriptor->file.substr(0, 8) + "...')?");
           }
-          throw vips::VError("Input file is missing");
+          throw vips::VError("Input file is missing: " + descriptor->file);
         }
         if (imageType != ImageType::UNKNOWN) {
           try {
             vips::VOption *option = VImage::option()
               ->set("access", descriptor->access)
-              ->set("fail", descriptor->failOnError);
+              ->set("fail_on", descriptor->failOn);
             if (descriptor->unlimited && (imageType == ImageType::SVG || imageType == ImageType::PNG)) {
               option->set("unlimited", TRUE);
             }
@@ -442,7 +442,7 @@ namespace sharp {
     }
     // Limit input images to a given number of pixels, where pixels = width * height
     if (descriptor->limitInputPixels > 0 &&
-      static_cast<uint64_t>(image.width() * image.height()) > static_cast<uint64_t>(descriptor->limitInputPixels)) {
+      static_cast<uint64_t>(image.width() * image.height()) > descriptor->limitInputPixels) {
       throw vips::VError("Input image exceeds pixel limit");
     }
     return std::make_tuple(image, imageType);

src/common.h

@@ -48,8 +48,8 @@ namespace sharp {
     std::string name;
     std::string file;
     char *buffer;
-    bool failOnError;
-    int limitInputPixels;
+    VipsFailOn failOn;
+    uint64_t limitInputPixels;
     bool unlimited;
     VipsAccess access;
     size_t bufferLength;
@@ -74,7 +74,7 @@ namespace sharp {
 
     InputDescriptor():
       buffer(nullptr),
-      failOnError(TRUE),
+      failOn(VIPS_FAIL_ON_WARNING),
       limitInputPixels(0x3FFF * 0x3FFF),
       unlimited(FALSE),
       access(VIPS_ACCESS_RANDOM),

src/operations.cc

@@ -209,7 +209,8 @@ namespace sharp {
   /*
    * Sharpen flat and jagged areas. Use sigma of -1.0 for fast sharpen.
    */
-  VImage Sharpen(VImage image, double const sigma, double const flat, double const jagged) {
+  VImage Sharpen(VImage image, double const sigma, double const m1, double const m2,
+    double const x1, double const y2, double const y3) {
     if (sigma == -1.0) {
       // Fast, mild sharpen
       VImage sharpen = VImage::new_matrixv(3, 3,
@@ -224,8 +225,14 @@ namespace sharp {
       if (colourspaceBeforeSharpen == VIPS_INTERPRETATION_RGB) {
         colourspaceBeforeSharpen = VIPS_INTERPRETATION_sRGB;
       }
-      return image.sharpen(
-        VImage::option()->set("sigma", sigma)->set("m1", flat)->set("m2", jagged))
+      return image
+        .sharpen(VImage::option()
+          ->set("sigma", sigma)
+          ->set("m1", m1)
+          ->set("m2", m2)
+          ->set("x1", x1)
+          ->set("y2", y2)
+          ->set("y3", y3))
         .colourspace(colourspaceBeforeSharpen);
     }
   }

src/operations.h

@@ -64,7 +64,8 @@ namespace sharp {
   /*
    * Sharpen flat and jagged areas. Use sigma of -1.0 for fast sharpen.
    */
-  VImage Sharpen(VImage image, double const sigma, double const flat, double const jagged);
+  VImage Sharpen(VImage image, double const sigma, double const m1, double const m2,
+    double const x1, double const y2, double const y3);
 
   /*
     Threshold an image

src/pipeline.cc

@@ -95,16 +95,18 @@ class PipelineWorker : public Napi::AsyncWorker {
       if (baton->rotateBeforePreExtract) {
         if (rotation != VIPS_ANGLE_D0) {
           image = image.rot(rotation);
-          if (flip) {
-            image = image.flip(VIPS_DIRECTION_VERTICAL);
-            flip = FALSE;
-          }
-          if (flop) {
-            image = image.flip(VIPS_DIRECTION_HORIZONTAL);
-            flop = FALSE;
-          }
+        }
+        if (flip) {
+          image = image.flip(VIPS_DIRECTION_VERTICAL);
+        }
+        if (flop) {
+          image = image.flip(VIPS_DIRECTION_HORIZONTAL);
+        }
+        if (rotation != VIPS_ANGLE_D0 || flip || flop) {
           image = sharp::RemoveExifOrientation(image);
         }
+        flop = FALSE;
+        flip = FALSE;
         if (baton->rotationAngle != 0.0) {
           MultiPageUnsupported(nPages, "Rotate");
           std::vector<double> background;
@@ -186,8 +188,10 @@ class PipelineWorker : public Napi::AsyncWorker {
           if (jpegShrinkOnLoad > 1 && static_cast<int>(shrink) == jpegShrinkOnLoad) {
             jpegShrinkOnLoad /= 2;
           }
-        } else if (inputImageType == sharp::ImageType::WEBP ||
-                   inputImageType == sharp::ImageType::SVG ||
+        } else if (inputImageType == sharp::ImageType::WEBP && shrink > 1.0) {
+          // Avoid upscaling via webp
+          scale = 1.0 / shrink;
+        } else if (inputImageType == sharp::ImageType::SVG ||
                    inputImageType == sharp::ImageType::PDF) {
           scale = 1.0 / shrink;
         }
@@ -200,7 +204,7 @@ class PipelineWorker : public Napi::AsyncWorker {
         vips::VOption *option = VImage::option()
           ->set("access", baton->input->access)
           ->set("shrink", jpegShrinkOnLoad)
-          ->set("fail", baton->input->failOnError);
+          ->set("fail_on", baton->input->failOn);
         if (baton->input->buffer != nullptr) {
           // Reload JPEG buffer
           VipsBlob *blob = vips_blob_new(nullptr, baton->input->buffer, baton->input->bufferLength);
@@ -214,7 +218,7 @@ class PipelineWorker : public Napi::AsyncWorker {
         vips::VOption *option = VImage::option()
           ->set("access", baton->input->access)
           ->set("scale", scale)
-          ->set("fail", baton->input->failOnError);
+          ->set("fail_on", baton->input->failOn);
         if (inputImageType == sharp::ImageType::WEBP) {
           option->set("n", baton->input->pages);
           option->set("page", baton->input->page);
@@ -241,8 +245,10 @@ class PipelineWorker : public Napi::AsyncWorker {
             // Reload SVG file
             image = VImage::svgload(const_cast<char*>(baton->input->file.data()), option);
           }
-
           sharp::SetDensity(image, baton->input->density);
+          if (image.width() > 32767 || image.height() > 32767) {
+            throw vips::VError("Input SVG image will exceed 32767x32767 pixel limit when scaled");
+          }
         } else if (inputImageType == sharp::ImageType::PDF) {
           option->set("n", baton->input->pages);
           option->set("page", baton->input->page);
@@ -260,6 +266,10 @@ class PipelineWorker : public Napi::AsyncWorker {
 
           sharp::SetDensity(image, baton->input->density);
         }
+      } else {
+        if (inputImageType == sharp::ImageType::SVG && (image.width() > 32767 || image.height() > 32767)) {
+          throw vips::VError("Input SVG image exceeds 32767x32767 pixel limit");
+        }
       }
 
       // Any pre-shrinking may already have been done
@@ -354,7 +364,7 @@ class PipelineWorker : public Napi::AsyncWorker {
       }
 
       bool const shouldPremultiplyAlpha = sharp::HasAlpha(image) &&
-        (shouldResize || shouldBlur || shouldConv || shouldSharpen || shouldComposite);
+        (shouldResize || shouldBlur || shouldConv || shouldSharpen);
 
       // Premultiply image alpha channel before all transformations to avoid
       // dark fringing around bright pixels
@@ -577,7 +587,8 @@ class PipelineWorker : public Napi::AsyncWorker {
 
       // Sharpen
       if (shouldSharpen) {
-        image = sharp::Sharpen(image, baton->sharpenSigma, baton->sharpenFlat, baton->sharpenJagged);
+        image = sharp::Sharpen(image, baton->sharpenSigma, baton->sharpenM1, baton->sharpenM2,
+          baton->sharpenX1, baton->sharpenY2, baton->sharpenY3);
       }
 
       // Composite
@@ -598,14 +609,14 @@ class PipelineWorker : public Napi::AsyncWorker {
             int across = 0;
             int down = 0;
             // Use gravity in overlay
-            if (compositeImage.width() <= baton->width) {
+            if (compositeImage.width() <= image.width()) {
               across = static_cast<int>(ceil(static_cast<double>(image.width()) / compositeImage.width()));
               // Ensure odd number of tiles across when gravity is centre, north or south
               if (composite->gravity == 0 || composite->gravity == 1 || composite->gravity == 3) {
                 across |= 1;
               }
             }
-            if (compositeImage.height() <= baton->height) {
+            if (compositeImage.height() <= image.height()) {
               down = static_cast<int>(ceil(static_cast<double>(image.height()) / compositeImage.height()));
               // Ensure odd number of tiles down when gravity is centre, east or west
               if (composite->gravity == 0 || composite->gravity == 2 || composite->gravity == 4) {
@@ -1400,8 +1411,11 @@ Napi::Value pipeline(const Napi::CallbackInfo& info) {
   baton->lightness = sharp::AttrAsDouble(options, "lightness");
   baton->medianSize = sharp::AttrAsUint32(options, "medianSize");
   baton->sharpenSigma = sharp::AttrAsDouble(options, "sharpenSigma");
-  baton->sharpenFlat = sharp::AttrAsDouble(options, "sharpenFlat");
-  baton->sharpenJagged = sharp::AttrAsDouble(options, "sharpenJagged");
+  baton->sharpenM1 = sharp::AttrAsDouble(options, "sharpenM1");
+  baton->sharpenM2 = sharp::AttrAsDouble(options, "sharpenM2");
+  baton->sharpenX1 = sharp::AttrAsDouble(options, "sharpenX1");
+  baton->sharpenY2 = sharp::AttrAsDouble(options, "sharpenY2");
+  baton->sharpenY3 = sharp::AttrAsDouble(options, "sharpenY3");
   baton->threshold = sharp::AttrAsInt32(options, "threshold");
   baton->thresholdGrayscale = sharp::AttrAsBool(options, "thresholdGrayscale");
   baton->trimThreshold = sharp::AttrAsDouble(options, "trimThreshold");

src/pipeline.h

@@ -90,8 +90,11 @@ struct PipelineBaton {
   double lightness;
   int medianSize;
   double sharpenSigma;
-  double sharpenFlat;
-  double sharpenJagged;
+  double sharpenM1;
+  double sharpenM2;
+  double sharpenX1;
+  double sharpenY2;
+  double sharpenY3;
   int threshold;
   bool thresholdGrayscale;
   double trimThreshold;
@@ -234,8 +237,11 @@ struct PipelineBaton {
     lightness(0),
     medianSize(0),
     sharpenSigma(0.0),
-    sharpenFlat(1.0),
-    sharpenJagged(2.0),
+    sharpenM1(1.0),
+    sharpenM2(2.0),
+    sharpenX1(2.0),
+    sharpenY2(10.0),
+    sharpenY3(20.0),
     threshold(0),
     thresholdGrayscale(true),
     trimThreshold(0.0),

test/unit/composite.js

@@ -420,4 +420,31 @@ describe('composite', () => {
 
     assert.deepStrictEqual(red, { r, g, b });
   });
+
+  it('Ensure tiled composition works with resized fit=outside', async () => {
+    const { info } = await sharp({
+      create: {
+        width: 41, height: 41, channels: 3, background: 'red'
+      }
+    })
+      .resize({
+        width: 10,
+        height: 40,
+        fit: 'outside'
+      })
+      .composite([
+        {
+          input: {
+            create: {
+              width: 16, height: 16, channels: 3, background: 'green'
+            }
+          },
+          tile: true
+        }
+      ])
+      .toBuffer({ resolveWithObject: true });
+
+    assert.strictEqual(info.width, 40);
+    assert.strictEqual(info.height, 40);
+  });
 });

test/unit/extend.js

@@ -158,6 +158,6 @@ describe('Extend', function () {
       })
       .raw()
       .toBuffer();
-    assert.deepStrictEqual(Array.from(data), [191, 25, 65, 204, 238, 31, 82, 204]);
+    assert.deepStrictEqual(Array.from(data), [191, 25, 66, 204, 191, 25, 66, 204]);
   });
 });

test/unit/extract.js

@@ -168,14 +168,51 @@ describe('Partial image extraction', function () {
       });
   });
 
-  it('Rotate with EXIF mirroring then extract', function (done) {
-    sharp(fixtures.inputJpgWithLandscapeExif7)
-      .rotate()
-      .extract({ left: 0, top: 208, width: 60, height: 40 })
-      .toBuffer(function (err, data) {
-        if (err) throw err;
-        fixtures.assertSimilar(fixtures.expected('rotate-mirror-extract.jpg'), data, done);
+  describe('Apply exif orientation and mirroring then extract', () => {
+    [
+      {
+        name: 'EXIF-1',
+        image: fixtures.inputJpgWithLandscapeExif1
+      },
+      {
+        name: 'EXIF-2',
+        image: fixtures.inputJpgWithLandscapeExif2
+      },
+      {
+        name: 'EXIF-3',
+        image: fixtures.inputJpgWithLandscapeExif3
+      },
+      {
+        name: 'EXIF-4',
+        image: fixtures.inputJpgWithLandscapeExif4
+      },
+      {
+        name: 'EXIF-5',
+        image: fixtures.inputJpgWithLandscapeExif5
+      },
+      {
+        name: 'EXIF-6',
+        image: fixtures.inputJpgWithLandscapeExif6
+      },
+      {
+        name: 'EXIF-7',
+        image: fixtures.inputJpgWithLandscapeExif7
+      },
+      {
+        name: 'EXIF-8',
+        image: fixtures.inputJpgWithLandscapeExif8
+      }
+    ].forEach(({ name, image }) => {
+      it(name, function (done) {
+        sharp(image)
+          .rotate()
+          .extract({ left: 0, top: 208, width: 60, height: 40 })
+          .toBuffer(function (err, data) {
+            if (err) throw err;
+            fixtures.assertSimilar(fixtures.expected('rotate-mirror-extract.jpg'), data, done);
+          });
       });
+    });
   });
 
   describe('Invalid parameters', function () {

test/unit/failOn.js

@@ -3,56 +3,70 @@
 const assert = require('assert');
 const fs = require('fs');
 
-const sharp = require('../../');
+const sharp = require('../../lib');
 const fixtures = require('../fixtures');
 
-describe('failOnError', function () {
+describe('failOn', () => {
   it('handles truncated JPEG', function (done) {
-    sharp(fixtures.inputJpgTruncated, { failOnError: false })
-      .resize(320, 240)
+    sharp(fixtures.inputJpgTruncated, { failOn: 'none' })
+      .resize(32, 24)
       .toBuffer(function (err, data, info) {
         if (err) throw err;
         assert.strictEqual('jpeg', info.format);
-        assert.strictEqual(320, info.width);
-        assert.strictEqual(240, info.height);
+        assert.strictEqual(32, info.width);
+        assert.strictEqual(24, info.height);
         fixtures.assertSimilar(fixtures.expected('truncated.jpg'), data, done);
       });
   });
 
   it('handles truncated PNG, emits warnings', function (done) {
     let isWarningEmitted = false;
-    sharp(fixtures.inputPngTruncated, { failOnError: false })
+    sharp(fixtures.inputPngTruncated, { failOn: 'none' })
       .on('warning', function (warning) {
         assert.ok(warning.includes('not enough data') || warning.includes('end of stream'));
         isWarningEmitted = true;
       })
-      .resize(320, 240)
+      .resize(32, 24)
       .toBuffer(function (err, data, info) {
         if (err) throw err;
         assert.strictEqual(true, isWarningEmitted);
         assert.strictEqual('png', info.format);
-        assert.strictEqual(320, info.width);
-        assert.strictEqual(240, info.height);
+        assert.strictEqual(32, info.width);
+        assert.strictEqual(24, info.height);
         done();
       });
   });
 
-  it('rejects invalid values', function () {
-    assert.doesNotThrow(function () {
-      sharp(fixtures.inputJpg, { failOnError: true });
-    });
+  it('throws for invalid options', () => {
+    assert.throws(
+      () => sharp({ failOn: 'zoinks' }),
+      /Expected one of: none, truncated, error, warning for failOn but received zoinks of type string/
+    );
+    assert.throws(
+      () => sharp({ failOn: 1 }),
+      /Expected one of: none, truncated, error, warning for failOn but received 1 of type number/
+    );
+  });
 
-    assert.throws(function () {
-      sharp(fixtures.inputJpg, { failOnError: 'zoinks' });
-    });
-
-    assert.throws(function () {
-      sharp(fixtures.inputJpg, { failOnError: 1 });
-    });
+  it('deprecated failOnError', () => {
+    assert.doesNotThrow(
+      () => sharp({ failOnError: true })
+    );
+    assert.doesNotThrow(
+      () => sharp({ failOnError: false })
+    );
+    assert.throws(
+      () => sharp({ failOnError: 'zoinks' }),
+      /Expected boolean for failOnError but received zoinks of type string/
+    );
+    assert.throws(
+      () => sharp({ failOnError: 1 }),
+      /Expected boolean for failOnError but received 1 of type number/
+    );
   });
 
   it('returns errors to callback for truncated JPEG', function (done) {
-    sharp(fixtures.inputJpgTruncated).toBuffer(function (err, data, info) {
+    sharp(fixtures.inputJpgTruncated, { failOn: 'truncated' }).toBuffer(function (err, data, info) {
       assert.ok(err.message.includes('VipsJpeg: Premature end of'), err);
       assert.strictEqual(data, undefined);
       assert.strictEqual(info, undefined);
@@ -61,7 +75,7 @@ describe('failOnError', function () {
   });
 
   it('returns errors to callback for truncated PNG', function (done) {
-    sharp(fixtures.inputPngTruncated).toBuffer(function (err, data, info) {
+    sharp(fixtures.inputPngTruncated, { failOn: 'truncated' }).toBuffer(function (err, data, info) {
       assert.ok(err.message.includes('read error'), err);
       assert.strictEqual(data, undefined);
       assert.strictEqual(info, undefined);
@@ -70,7 +84,7 @@ describe('failOnError', function () {
   });
 
   it('rejects promises for truncated JPEG', function (done) {
-    sharp(fixtures.inputJpgTruncated)
+    sharp(fixtures.inputJpgTruncated, { failOn: 'error' })
       .toBuffer()
       .then(() => {
         throw new Error('Expected rejection');
@@ -80,8 +94,8 @@ describe('failOnError', function () {
       });
   });
 
-  it('handles stream-based input', function () {
-    const writable = sharp({ failOnError: false });
+  it('handles stream-based input', async () => {
+    const writable = sharp({ failOn: 'none' }).resize(32, 24);
     fs.createReadStream(fixtures.inputJpgTruncated).pipe(writable);
     return writable.toBuffer();
   });

test/unit/io.js

@@ -182,6 +182,24 @@ describe('Input/output', function () {
     assert.strictEqual(info.height, 1);
   });
 
+  it('Read from Uint8ClampedArray with byteOffset and output to Buffer', async () => {
+    // since a Uint8ClampedArray is the same as Uint8Array but clamps the values
+    // between 0-255 it seemed good to add this also
+    const uint8array = Uint8ClampedArray.from([0, 0, 0, 255, 255, 255, 0, 0, 0, 255, 255, 255]);
+    const uint8ArrayWithByteOffset = new Uint8ClampedArray(uint8array.buffer, 3, 6);
+    const { data, info } = await sharp(uint8ArrayWithByteOffset, {
+      raw: {
+        width: 2,
+        height: 1,
+        channels: 3
+      }
+    }).toBuffer({ resolveWithObject: true });
+
+    assert.deepStrictEqual(Uint8ClampedArray.from([255, 255, 255, 0, 0, 0]), new Uint8ClampedArray(data));
+    assert.strictEqual(info.width, 2);
+    assert.strictEqual(info.height, 1);
+  });
+
   it('Stream should emit info event', function (done) {
     const readable = fs.createReadStream(fixtures.inputJpg);
     const writable = fs.createWriteStream(outputJpg);
@@ -439,7 +457,7 @@ describe('Input/output', function () {
       done();
     }).catch(function (err) {
       assert(err instanceof Error);
-      assert.strictEqual('Input file is missing', err.message);
+      assert.strictEqual('Input file is missing: does-not-exist', err.message);
       done();
     });
   });
@@ -688,6 +706,12 @@ describe('Input/output', function () {
       });
     });
 
+    it('Invalid fails - integer overflow', () => {
+      assert.throws(() => {
+        sharp({ limitInputPixels: Number.MAX_SAFE_INTEGER + 1 });
+      });
+    });
+
     it('Invalid fails - string', () => {
       assert.throws(() => {
         sharp({ limitInputPixels: 'fail' });

test/unit/jp2.js

@@ -48,15 +48,8 @@ describe('JP2 output', () => {
             .resize(320, 240)
             .toBuffer(function (err, buffer80) {
               if (err) throw err;
-              sharp(fixtures.inputJp2)
-                .resize(320, 240)
-                .jp2({ quality: 90 })
-                .toBuffer(function (err, buffer90) {
-                  if (err) throw err;
-                  assert(buffer70.length < buffer80.length);
-                  assert(buffer80.length < buffer90.length);
-                  done();
-                });
+              assert(buffer70.length < buffer80.length);
+              done();
             });
         });
     });

test/unit/negate.js

@@ -186,6 +186,22 @@ describe('Negate', function () {
       });
   });
 
+  it('negate create', async () => {
+    const [r, g, b] = await sharp({
+      create: {
+        width: 1,
+        height: 1,
+        channels: 3,
+        background: { r: 10, g: 20, b: 30 }
+      }
+    })
+      .negate()
+      .raw()
+      .toBuffer();
+
+    assert.deepStrictEqual({ r, g, b }, { r: 245, g: 235, b: 225 });
+  });
+
   it('invalid alpha value', function () {
     assert.throws(function () {
       sharp(fixtures.inputWebPWithTransparency).negate({ alpha: 'non-bool' });

test/unit/noise.js

@@ -19,7 +19,7 @@ describe('Gaussian noise', function () {
           sigma: 30
         }
       }
-    });
+    }).toColourspace('b-w');
     noise.toFile(output, function (err, info) {
       if (err) throw err;
       assert.strictEqual('png', info.format);
@@ -131,6 +131,7 @@ describe('Gaussian noise', function () {
       }
     });
     noise
+      .toColourspace('b-w')
       .toBuffer(function (err, data, info) {
         if (err) throw err;
         assert.strictEqual(1, info.channels);

test/unit/platform.js

@@ -61,4 +61,28 @@ describe('Platform-detection', function () {
     delete process.env.npm_config_arch;
     delete process.versions.electron;
   });
+
+  it('Can override libc if platform is linux', function () {
+    process.env.npm_config_platform = 'linux';
+    process.env.npm_config_libc = 'test';
+    assert.strictEqual('linuxtest', platform().split('-')[0]);
+    delete process.env.npm_config_platform;
+    delete process.env.npm_config_libc;
+  });
+
+  it('Handles libc value "glibc" as default linux', function () {
+    process.env.npm_config_platform = 'linux';
+    process.env.npm_config_libc = 'glibc';
+    assert.strictEqual('linux', platform().split('-')[0]);
+    delete process.env.npm_config_platform;
+    delete process.env.npm_config_libc;
+  });
+
+  it('Discards libc value on non-linux platform', function () {
+    process.env.npm_config_platform = 'win32';
+    process.env.npm_config_libc = 'gnuwin32';
+    assert.strictEqual('win32', platform().split('-')[0]);
+    delete process.env.npm_config_platform;
+    delete process.env.npm_config_libc;
+  });
 });

test/unit/resize.js

@@ -121,6 +121,20 @@ describe('Resize dimensions', function () {
       });
   });
 
+  it('Webp resize then extract large image', function (done) {
+    sharp(fixtures.inputWebP)
+      .resize(0x4000, 0x4000)
+      .extract({ top: 0x2000, left: 0x2000, width: 256, height: 256 })
+      .webp()
+      .toBuffer(function (err, data, info) {
+        if (err) throw err;
+        assert.strictEqual('webp', info.format);
+        assert.strictEqual(256, info.width);
+        assert.strictEqual(256, info.height);
+        done();
+      });
+  });
+
   it('WebP shrink-on-load rounds to zero, ensure recalculation is correct', function (done) {
     sharp(fixtures.inputJpg)
       .resize(1080, 607)

test/unit/sharpen.js

@@ -45,6 +45,22 @@ describe('Sharpen', function () {
       });
   });
 
+  it('sigma=3.5, m1=2, m2=4', (done) => {
+    sharp(fixtures.inputJpg)
+      .resize(320, 240)
+      .sharpen({ sigma: 3.5, m1: 2, m2: 4 })
+      .toBuffer()
+      .then(data => fixtures.assertSimilar(fixtures.expected('sharpen-5-2-4.jpg'), data, done));
+  });
+
+  it('sigma=3.5, m1=2, m2=4, x1=2, y2=5, y3=25', (done) => {
+    sharp(fixtures.inputJpg)
+      .resize(320, 240)
+      .sharpen({ sigma: 3.5, m1: 2, m2: 4, x1: 2, y2: 5, y3: 25 })
+      .toBuffer()
+      .then(data => fixtures.assertSimilar(fixtures.expected('sharpen-5-2-4.jpg'), data, done));
+  });
+
   if (!process.env.SHARP_TEST_WITHOUT_CACHE) {
     it('specific radius/levels with alpha channel', function (done) {
       sharp(fixtures.inputPngWithTransparency)
@@ -92,6 +108,36 @@ describe('Sharpen', function () {
     });
   });
 
+  it('invalid options.sigma', () => assert.throws(
+    () => sharp().sharpen({ sigma: -1 }),
+    /Expected number between 0\.01 and 10000 for options\.sigma but received -1 of type number/
+  ));
+
+  it('invalid options.m1', () => assert.throws(
+    () => sharp().sharpen({ sigma: 1, m1: -1 }),
+    /Expected number between 0 and 10000 for options\.m1 but received -1 of type number/
+  ));
+
+  it('invalid options.m2', () => assert.throws(
+    () => sharp().sharpen({ sigma: 1, m2: -1 }),
+    /Expected number between 0 and 10000 for options\.m2 but received -1 of type number/
+  ));
+
+  it('invalid options.x1', () => assert.throws(
+    () => sharp().sharpen({ sigma: 1, x1: -1 }),
+    /Expected number between 0 and 10000 for options\.x1 but received -1 of type number/
+  ));
+
+  it('invalid options.y2', () => assert.throws(
+    () => sharp().sharpen({ sigma: 1, y2: -1 }),
+    /Expected number between 0 and 10000 for options\.y2 but received -1 of type number/
+  ));
+
+  it('invalid options.y3', () => assert.throws(
+    () => sharp().sharpen({ sigma: 1, y3: -1 }),
+    /Expected number between 0 and 10000 for options\.y3 but received -1 of type number/
+  ));
+
   it('sharpened image is larger than non-sharpened', function (done) {
     sharp(fixtures.inputJpg)
       .resize(320, 240)

test/unit/svg.js

@@ -136,6 +136,20 @@ describe('SVG input', function () {
     assert.strictEqual(info.channels, 4);
   });
 
+  it('Fails to render SVG larger than 32767x32767', () =>
+    assert.rejects(
+      () => sharp(Buffer.from('<svg width="32768" height="1" />')).toBuffer(),
+      /Input SVG image exceeds 32767x32767 pixel limit/
+    )
+  );
+
+  it('Fails to render scaled SVG larger than 32767x32767', () =>
+    assert.rejects(
+      () => sharp(Buffer.from('<svg width="32767" height="1" />')).resize(32768).toBuffer(),
+      /Input SVG image will exceed 32767x32767 pixel limit when scaled/
+    )
+  );
+
   it('Detects SVG passed as a string', () =>
     assert.rejects(
       () => sharp('<svg></svg>').toBuffer(),

test/unit/util.js

@@ -68,10 +68,13 @@ describe('Utilities', function () {
   });
 
   describe('Counters', function () {
-    it('Have zero value at rest', function () {
-      const counters = sharp.counters();
-      assert.strictEqual(0, counters.queue);
-      assert.strictEqual(0, counters.process);
+    it('Have zero value at rest', (done) => {
+      queueMicrotask(() => {
+        const counters = sharp.counters();
+        assert.strictEqual(0, counters.queue);
+        assert.strictEqual(0, counters.process);
+        done();
+      });
     });
   });
 

test/unit/webp.js

@@ -133,6 +133,12 @@ describe('WebP', function () {
     });
   });
 
+  it('should set effort to 0', () => {
+    const effort = sharp().webp({ effort: 0 }).options.webpEffort;
+
+    assert.strictEqual(effort, 0);
+  });
+
   it('invalid loop throws', () => {
     assert.throws(() => {
       sharp().webp({ loop: -1 });