Minimum version of libvips now 7.40.0 #74

Ubuntu 14 now compiles 7.40.x from source
as packaged version is the outdated 7.38.x Added support for Ubuntu 15 and Mint 17.1
2026-02-06 06:36:17 +01:00 · 2014-11-17 12:08:05 +00:00 · 2014-11-12 20:30:13 +00:00 · 2014-11-12 20:11:28 +00:00 · 2014-11-12 20:06:28 +00:00 · 2014-11-11 18:28:23 +00:00
55 changed files with 3789 additions and 2360 deletions
--- a/.gitignore
+++ b/.gitignore
@@ -1,19 +1,9 @@
 lib-cov
 *.seed
 *.log
 *.csv
 *.dat
 *.out
 *.pid
 *.gz
 pids
 logs
 results
 build
 node_modules
-tests/fixtures/output.*
+coverage
-tests/libvips.supp
+test/bench/node_modules
 test/fixtures/output.*
 test/leak/libvips.supp
 # Mac OS X
 .DS_Store
--- a/.jshintignore
+++ b/.jshintignore
@@ -0,0 +1,3 @@
 node_modules
 test/bench/node_modules
 coverage
--- a/.jshintrc
+++ b/.jshintrc
@@ -0,0 +1,8 @@
 {
  "strict": true,
  "node": true,
  "globals": {
    "describe": true,
    "it": true
  }
 }
--- a/.npmignore
+++ b/.npmignore
@@ -1,18 +1,8 @@
 lib-cov
 *.seed
 *.log
 *.csv
 *.dat
 *.out
 *.pid
 *.gz
 pids
 logs
 results
 build
 node_modules
-
+coverage
 .jshintignore
 .jshintrc
 .gitignore
-tests
+test
 .travis.yml
--- a/.travis.yml
+++ b/.travis.yml
@@ -3,15 +3,6 @@ node_js:
  - "0.10"
  - "0.11"
 before_install:
-  - sudo add-apt-repository ppa:lyrasis/precise-backports -y
+  - curl -s https://raw.githubusercontent.com/lovell/sharp/master/preinstall.sh | sudo bash -
-  - sudo apt-get update -qq
+after_success:
-  - sudo apt-get install -qq automake gobject-introspection gtk-doc-tools libglib2.0-dev libjpeg-turbo8-dev libpng12-dev libwebp-dev libtiff4-dev libexif-dev libxml2-dev swig graphicsmagick libmagick++-dev
+  - cat ./coverage/lcov.info | ./node_modules/coveralls/bin/coveralls.js
  - git clone https://github.com/jcupitt/libvips.git
  - cd libvips
  - git checkout 7.38
  - ./bootstrap.sh
  - ./configure --enable-debug=no --enable-cxx=yes --without-orc --without-python --without-fftw
  - make
  - sudo make install
  - sudo ldconfig
  - cd $TRAVIS_BUILD_DIR
--- a/README.md
+++ b/README.md
@@ -29,11 +29,34 @@ This module is powered by the blazingly fast [libvips](https://github.com/jcupit
 ### Prerequisites
 * Node.js v0.10+
-* [libvips](https://github.com/jcupitt/libvips) v7.38.5+
+* [libvips](https://github.com/jcupitt/libvips) v7.40.0+ (7.42.0+ recommended)
-_libvips_ can take advantage of [liborc](http://code.entropywave.com/orc/) if present. Warning: versions of _liborc_ prior to 0.4.19 suffer [memory leaks](https://github.com/lovell/sharp/issues/21#issuecomment-42367306) and version 0.4.19 suffers [buffer overflows](https://github.com/lovell/sharp/issues/21#issuecomment-44813498).
+To install the most suitable version of libvips on the following Operating Systems:
-### Install libvips on Mac OS
+* Mac OS
  * Homebrew
  * MacPorts
 * Debian Linux
  * Debian 7, 8
  * Ubuntu 12.04, 14.04, 14.10, 15.04
  * Mint 13, 17
 * Red Hat Linux
  * RHEL/Centos/Scientific 6, 7
  * Fedora 21, 22
 run the following as a user with `sudo` access:
 	curl -s https://raw.githubusercontent.com/lovell/sharp/master/preinstall.sh | sudo bash -
 or run the following as `root`:
 	curl -s https://raw.githubusercontent.com/lovell/sharp/master/preinstall.sh | bash -
 The [preinstall.sh](https://github.com/lovell/sharp/blob/master/preinstall.sh) script requires `curl` and `pkg-config`.
 ### Mac OS tips
 Manual install via homebrew:
 	brew install homebrew/science/vips --with-webp --with-graphicsmagick
@@ -45,54 +68,13 @@ The _gettext_ dependency of _libvips_ [can lead](https://github.com/lovell/sharp
 	brew link gettext --force
 ### Install libvips on Linux
 #### Ubuntu 14.04 LTS
 	sudo apt-get install libvips-dev
 #### Ubuntu 12.04 LTS
 	sudo add-apt-repository -y ppa:lyrasis/precise-backports
 	sudo apt-get update
 	sudo apt-get install -y automake build-essential git gobject-introspection gtk-doc-tools libglib2.0-dev libjpeg-turbo8-dev libpng12-dev libwebp-dev libtiff4-dev libexif-dev libxml2-dev swig libmagickwand-dev
 	git clone https://github.com/jcupitt/libvips.git
 	cd libvips
 	git checkout 7.40
 	./bootstrap.sh
 	./configure --enable-debug=no --enable-cxx=yes --without-python --without-orc --without-fftw
 	make
 	sudo make install
 	sudo ldconfig
 #### Debian Jessie
 	apt-get install libvips-dev
 #### Centos 6
 	sudo yum groupinstall -y "Development Tools"
 	sudo yum install -y gtk-doc libxml2-devel libjpeg-turbo-devel libpng-devel libtiff-devel libexif-devel ImageMagick-devel
 	sudo yum install -y http://li.nux.ro/download/nux/dextop/el6/x86_64/nux-dextop-release-0-2.el6.nux.noarch.rpm
 	sudo yum install -y --enablerepo=nux-dextop gobject-introspection-devel
 	sudo yum install -y http://rpms.famillecollet.com/enterprise/remi-release-6.rpm
 	sudo yum install -y --enablerepo=remi libwebp-devel
 	git clone https://github.com/jcupitt/libvips.git
 	cd libvips
 	git checkout 7.40
 	./bootstrap.sh
 	./configure --prefix=/usr --enable-docs=no --enable-debug=no --enable-cxx=yes --without-orc --without-python --without-fftw
 	make
 	sudo make install
 	sudo ldconfig
 ### Install libvips on Heroku
 [Alessandro Tagliapietra](https://github.com/alex88) maintains an [Heroku buildpack for libvips](https://github.com/alex88/heroku-buildpack-vips) and its dependencies.
 ### Using with gulp.js
-[Mohammad Prabowo](https://github.com/rizalp) maintains a [gulp.js plugin](https://github.com/rizalp/gulp-sharp).
+[Eugeny Vlasenko](https://github.com/mahnunchik) maintains [gulp-responsive](https://www.npmjs.org/package/gulp-responsive) and [Mohammad Prabowo](https://github.com/rizalp) maintains [gulp-sharp](https://www.npmjs.org/package/gulp-sharp).
 ## Usage examples
@@ -232,12 +214,12 @@ sharp(inputBuffer)
 Constructor to which further methods are chained. `input`, if present, can be one of:
-* Buffer containing JPEG, PNG or WebP image data, or
+* Buffer containing JPEG, PNG, WebP or TIFF image data, or
 * String containing the filename of an image, with most major formats supported.
 The object returned implements the [stream.Duplex](http://nodejs.org/api/stream.html#stream_class_stream_duplex) class.
-JPEG, PNG or WebP format image data can be streamed into the object when `input` is not provided.
+JPEG, PNG, WebP or TIFF format image data can be streamed into the object when `input` is not provided.
 JPEG, PNG or WebP format image data can be streamed out from this object.
@@ -250,7 +232,7 @@ Fast access to image metadata without decoding any compressed image data.
 * `format`: Name of decoder to be used to decompress image data e.g. `jpeg`, `png`, `webp` (for file-based input additionally `tiff` and `magick`)
 * `width`: Number of pixels wide
 * `height`: Number of pixels high
-* `space`: Name of colour space interpretation e.g. `srgb`, `rgb`, `scrgb`, `cmyk`, `lab`, `xyz`, `b-w` [...](https://github.com/jcupitt/libvips/blob/master/libvips/iofuncs/enumtypes.c#L502)
+* `space`: Name of colour space interpretation e.g. `srgb`, `rgb`, `scrgb`, `cmyk`, `lab`, `xyz`, `b-w` [...](https://github.com/jcupitt/libvips/blob/master/libvips/iofuncs/enumtypes.c#L522)
 * `channels`: Number of bands e.g. `3` for sRGB, `4` for CMYK
 * `hasAlpha`: Boolean indicating the presence of an alpha transparency channel
 * `orientation`: Number value of the EXIF Orientation header, if present
@@ -321,7 +303,15 @@ Rotate the output image by either an explicit angle or auto-orient based on the
 `angle`, if present, is a Number with a value of `0`, `90`, `180` or `270`.
-Use this method without `angle` to determine the angle from EXIF data. Mirroring is currently unsupported.
+Use this method without `angle` to determine the angle from EXIF data. Mirroring is supported and may infer the use of a `flip` operation.
 #### flip()
 Flip the image about the vertical Y axis. This always occurs after rotation, if any.
 #### flop()
 Flop the image about the horizontal X axis. This always occurs after rotation, if any.
 #### withoutEnlargement()
@@ -329,9 +319,23 @@ Do not enlarge the output image if the input image width *or* height are already
 This is equivalent to GraphicsMagick's `>` geometry option: "change the dimensions of the image only if its width or height exceeds the geometry specification".
-#### sharpen()
+#### blur([radius])
-Perform a mild sharpen of the output image. This typically reduces performance by 10%.
+When used without parameters, performs a fast, mild blur of the output image. This typically reduces performance by 10%.
 When a `radius` is provided, performs a slower, more accurate Gaussian blur. This typically reduces performance by 30%.
 * `radius`, if present, is an integral Number representing the approximate blur mask radius in pixels.
 #### sharpen([radius], [flat], [jagged])
 When used without parameters, performs a fast, mild sharpen of the output image. This typically reduces performance by 10%.
 When a `radius` 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. This typically reduces performance by 50%.
 * `radius`, if present, is an integral Number representing the sharpen mask radius in pixels.
 * `flat`, if present, is a Number representing the level of sharpening to apply to "flat" areas, defaulting to a value of 1.0.
 * `jagged`, if present, is a Number representing the level of sharpening to apply to "jagged" areas, defaulting to a value of 2.0.
 #### interpolateWith(interpolator)
@@ -398,6 +402,12 @@ An advanced setting for the _zlib_ compression level of the lossless PNG output
 `compressionLevel` is a Number between 0 and 9.
 #### withoutAdaptiveFiltering()
 _Requires libvips 7.41.0+_
 An advanced and experimental PNG output setting to disable adaptive row filtering.
 ### Output methods
 #### toFile(filename, [callback])
@@ -465,21 +475,52 @@ var counters = sharp.counters(); // { queue: 2, process: 4 }
 ## Testing
-### Ubuntu 12.04
+### Functional tests
 #### Coverage
 [![Test Coverage](https://coveralls.io/repos/lovell/sharp/badge.png?branch=master)](https://coveralls.io/r/lovell/sharp?branch=master)
 #### Ubuntu 12.04
 [![Ubuntu 12.04 Build Status](https://travis-ci.org/lovell/sharp.png?branch=master)](https://travis-ci.org/lovell/sharp)
-### Centos 6.5
+#### Centos 6.5
 [![Centos 6.5 Build Status](https://snap-ci.com/lovell/sharp/branch/master/build_image)](https://snap-ci.com/lovell/sharp/branch/master)
-### It worked on my machine
+#### It worked on my machine
 ```
 npm test
 ```
-Running the comparative performance tests requires _ImageMagick_ and _GraphicsMagick_.
+### Memory leak tests
 ```
 cd sharp/test/leak
 ./leak.sh
 ```
 Requires _valgrind_:
 ```
 brew install valgrind
 ```
 ```
 sudo apt-get install -qq valgrind
 ```
 ### Benchmark tests
 ```
 cd sharp/test/bench
 npm install
 npm test
 ```
 Requires both _ImageMagick_ and _GraphicsMagick_:
 ```
 brew install imagemagick
@@ -551,6 +592,7 @@ This module would never have been possible without the help and code contributio
 * [Julian Walker](https://github.com/julianwa)
 * [Amit Pitaru](https://github.com/apitaru)
 * [Brandon Aaron](https://github.com/brandonaaron)
 * [Andreas Lind](https://github.com/papandreou)
 Thank you!
--- a/binding.gyp
+++ b/binding.gyp
@@ -1,7 +1,13 @@
 {
  'targets': [{
    'target_name': 'sharp',
-    'sources': ['src/sharp.cc'],
+    'sources': [
      'src/common.cc',
      'src/utilities.cc',
      'src/metadata.cc',
      'src/resize.cc',
      'src/sharp.cc'
    ],
    'variables': {
      'PKG_CONFIG_PATH': '<!(which brew >/dev/null 2>&1 && eval $(brew --env) && echo $PKG_CONFIG_LIBDIR || true):$PKG_CONFIG_PATH:/usr/local/lib/pkgconfig:/usr/lib/pkgconfig'
    },
@@ -12,11 +18,20 @@
      '<!(PKG_CONFIG_PATH="<(PKG_CONFIG_PATH)" pkg-config --cflags vips glib-2.0)',
      '<!(node -e "require(\'nan\')")'
    ],
-    'cflags': ['-fexceptions', '-Wall', '-O3'],
+    'cflags_cc': [
-    'cflags_cc': ['-std=c++0x', '-fexceptions', '-Wall', '-O3'],
+      '-std=c++0x',
      '-fexceptions',
      '-Wall',
      '-O3'
    ],
    'xcode_settings': {
-      'OTHER_CFLAGS': ['-std=c++11', '-stdlib=libc++', '-fexceptions', '-Wall', '-O3'],
+      'OTHER_CPLUSPLUSFLAGS': [
-      'OTHER_CPLUSPLUSFLAGS': ['-std=c++11', '-stdlib=libc++', '-fexceptions', '-Wall', '-O3'],
+        '-std=c++11',
        '-stdlib=libc++',
        '-fexceptions',
        '-Wall',
        '-O3'
      ],
      'MACOSX_DEPLOYMENT_TARGET': '10.7'
    }
  }]
--- a/icc/USWebCoatedSWOP.icc
+++ b/icc/USWebCoatedSWOP.icc
--- a/index.js
+++ b/index.js
@@ -1,13 +1,15 @@
 /*jslint node: true */
 'use strict';
 var path = require('path');
 var util = require('util');
 var stream = require('stream');
 var semver = require('semver');
 var color = require('color');
-var Promise = require('bluebird');
+var BluebirdPromise = require('bluebird');
 var sharp = require('./build/Release/sharp');
 var libvipsVersion = sharp.libvipsVersion();
 var Sharp = function(input) {
  if (!(this instanceof Sharp)) {
@@ -18,6 +20,8 @@ var Sharp = function(input) {
    // input options
    streamIn: false,
    sequentialRead: false,
    // ICC profile to use when input CMYK image has no embedded profile
    iccProfileCmyk: path.join(__dirname, 'icc', 'USWebCoatedSWOP.icc'),
    // resize options
    topOffsetPre: -1,
    leftOffsetPre: -1,
@@ -32,12 +36,17 @@ var Sharp = function(input) {
    canvas: 'c',
    gravity: 0,
    angle: 0,
    flip: false,
    flop: false,
    withoutEnlargement: false,
    interpolator: 'bilinear',
    // operations
    background: [0, 0, 0, 255],
    flatten: false,
-    sharpen: false,
+    blurRadius: 0,
    sharpenRadius: 0,
    sharpenFlat: 1,
    sharpenJagged: 2,
    gamma: 0,
    greyscale: false,
    // output options
@@ -45,6 +54,7 @@ var Sharp = function(input) {
    progressive: false,
    quality: 80,
    compressionLevel: 6,
    withoutAdaptiveFiltering: false,
    streamOut: false,
    withMetadata: false
  };
@@ -53,10 +63,21 @@ var Sharp = function(input) {
    this.options.fileIn = input;
  } else if (typeof input === 'object' && input instanceof Buffer) {
    // input=buffer
-    if (input.length > 0) {
+    if (
      (input.length > 3) &&
      // JPEG
      (input[0] === 0xFF && input[1] === 0xD8) ||
      // PNG
      (input[0] === 0x89 && input[1] === 0x50) ||
      // WebP
      (input[0] === 0x52 && input[1] === 0x49) ||
      // TIFF
      (input[0] === 0x4D && input[1] === 0x4D && input[2] === 0x00 && (input[3] === 0x2A || input[3] === 0x2B)) ||
      (input[0] === 0x49 && input[1] === 0x49 && (input[2] === 0x2A || input[2] === 0x2B) && input[3] === 0x00)
    ) {
      this.options.bufferIn = input;
    } else {
-      throw new Error('Buffer is empty');
+      throw new Error('Buffer contains an unsupported image format. JPEG, PNG, WebP and TIFF are currently supported.');
    }
  } else {
    // input=stream
@@ -73,7 +94,7 @@ util.inherits(Sharp, stream.Duplex);
 Sharp.prototype._write = function(chunk, encoding, callback) {
  /*jslint unused: false */
  if (this.options.streamIn) {
-    if (typeof chunk === 'object' || chunk instanceof Buffer) {
+    if (typeof chunk === 'object' && chunk instanceof Buffer) {
      if (typeof this.options.bufferIn === 'undefined') {
        // Create new Buffer
        this.options.bufferIn = new Buffer(chunk.length);
@@ -99,14 +120,11 @@ module.exports.gravity = {'center': 0, 'centre': 0, 'north': 1, 'east': 2, 'sout
 Sharp.prototype.crop = function(gravity) {
  this.options.canvas = 'c';
-  if (typeof gravity !== 'undefined') {
+  if (typeof gravity === 'number' && !Number.isNaN(gravity) && gravity >= 0 && gravity <= 4) {
    // Is this a supported gravity?
    if (!Number.isNaN(gravity) && gravity >= 0 && gravity <= 4) {
    this.options.gravity = gravity;
  } else {
    throw new Error('Unsupported crop gravity ' + gravity);
  }
  }
  return this;
 };
@@ -120,16 +138,6 @@ Sharp.prototype.extract = function(topOffset, leftOffset, width, height) {
  return this;
 };
 /*
  Deprecated embed* methods, to be removed in v0.8.0
 */
 Sharp.prototype.embedWhite = util.deprecate(function() {
  return this.background('white').embed();
 }, "embedWhite() is deprecated, use background('white').embed() instead");
 Sharp.prototype.embedBlack = util.deprecate(function() {
  return this.background('black').embed();
 }, "embedBlack() is deprecated, use background('black').embed() instead");
 /*
  Set the background colour for embed and flatten operations.
  Delegates to the 'Color' module, which can throw an Error
@@ -172,6 +180,22 @@ Sharp.prototype.rotate = function(angle) {
  return this;
 };
 /*
  Flip the image vertically, about the Y axis
 */
 Sharp.prototype.flip = function(flip) {
  this.options.flip = (typeof flip === 'boolean') ? flip : true;
  return this;
 };
 /*
  Flop the image horizontally, about the X axis
 */
 Sharp.prototype.flop = function(flop) {
  this.options.flop = (typeof flop === 'boolean') ? flop : true;
  return this;
 };
 /*
  Do not enlarge the output if the input width *or* height are already less than the required dimensions
  This is equivalent to GraphicsMagick's ">" geometry option:
@@ -182,8 +206,64 @@ Sharp.prototype.withoutEnlargement = function(withoutEnlargement) {
  return this;
 };
-Sharp.prototype.sharpen = function(sharpen) {
+/*
-  this.options.sharpen = (typeof sharpen === 'boolean') ? sharpen : true;
+  Blur the output image.
  Call without a radius to use a fast, mild blur.
  Call with a radius to use a slower, more accurate Gaussian blur.
 */
 Sharp.prototype.blur = function(radius) {
  if (typeof radius === 'undefined') {
    // No arguments: default to mild blur
    this.options.blurRadius = -1;
  } else if (typeof radius === 'boolean') {
    // Boolean argument: apply mild blur?
    this.options.blurRadius = radius ? -1 : 0;
  } else if (typeof radius === 'number' && !Number.isNaN(radius) && (radius % 1 === 0) && radius >= 1) {
    // Numeric argument: specific radius
    this.options.blurRadius = radius;
  } else {
    throw new Error('Invalid blur radius ' + radius + ' (expected integer >= 1)');
  }
  return this;
 };
 /*
  Sharpen the output image.
  Call without a radius to use a fast, mild sharpen.
  Call with a radius to use a slow, accurate sharpen using the L of LAB colour space.
    radius - size of mask in pixels, must be integer
    flat - level of "flat" area sharpen, default 1
    jagged - level of "jagged" area sharpen, default 2
 */
 Sharp.prototype.sharpen = function(radius, flat, jagged) {
  if (typeof radius === 'undefined') {
    // No arguments: default to mild sharpen
    this.options.sharpenRadius = -1;
  } else if (typeof radius === 'boolean') {
    // Boolean argument: apply mild sharpen?
    this.options.sharpenRadius = radius ? -1 : 0;
  } else if (typeof radius === 'number' && !Number.isNaN(radius) && (radius % 1 === 0) && radius >= 1) {
    // Numeric argument: specific radius
    this.options.sharpenRadius = radius;
    // Control over flat areas
    if (typeof flat !== 'undefined' && flat !== null) {
      if (typeof flat === 'number' && !Number.isNaN(flat) && flat >= 0) {
        this.options.sharpenFlat = flat;
      } else {
        throw new Error('Invalid sharpen level for flat areas ' + flat + ' (expected >= 0)');
      }
    }
    // Control over jagged areas
    if (typeof jagged !== 'undefined' && jagged !== null) {
      if (typeof jagged === 'number' && !Number.isNaN(jagged) && jagged >= 0) {
        this.options.sharpenJagged = jagged;
      } else {
        throw new Error('Invalid sharpen level for jagged areas ' + jagged + ' (expected >= 0)');
      }
    }
  } else {
    throw new Error('Invalid sharpen radius ' + radius + ' (expected integer >= 1)');
  }
  return this;
 };
@@ -247,6 +327,9 @@ Sharp.prototype.quality = function(quality) {
  return this;
 };
 /*
  zlib compression level for PNG output
 */
 Sharp.prototype.compressionLevel = function(compressionLevel) {
  if (!Number.isNaN(compressionLevel) && compressionLevel >= 0 && compressionLevel <= 9) {
    this.options.compressionLevel = compressionLevel;
@@ -256,6 +339,18 @@ Sharp.prototype.compressionLevel = function(compressionLevel) {
  return this;
 };
 /*
  Disable the use of adaptive row filtering for PNG output - requires libvips 7.41.0+
 */
 Sharp.prototype.withoutAdaptiveFiltering = function(withoutAdaptiveFiltering) {
  if (semver.gte(libvipsVersion, '7.41.0')) {
    this.options.withoutAdaptiveFiltering = (typeof withoutAdaptiveFiltering === 'boolean') ? withoutAdaptiveFiltering : true;
  } else {
    console.error('withoutAdaptiveFiltering requires libvips 7.41.0+');
  }
  return this;
 };
 Sharp.prototype.withMetadata = function(withMetadata) {
  this.options.withMetadata = (typeof withMetadata === 'boolean') ? withMetadata : true;
  return this;
@@ -265,7 +360,7 @@ Sharp.prototype.resize = function(width, height) {
  if (!width) {
    this.options.width = -1;
  } else {
-    if (!Number.isNaN(width)) {
+    if (typeof width === 'number' && !Number.isNaN(width)) {
      this.options.width = width;
    } else {
      throw new Error('Invalid width ' + width);
@@ -274,7 +369,7 @@ Sharp.prototype.resize = function(width, height) {
  if (!height) {
    this.options.height = -1;
  } else {
-    if (!Number.isNaN(height)) {
+    if (typeof height === 'number' && !Number.isNaN(height)) {
      this.options.height = height;
    } else {
      throw new Error('Invalid height ' + height);
@@ -292,7 +387,7 @@ Sharp.prototype.toFile = function(output, callback) {
    if (typeof callback === 'function') {
      callback(errOutputInvalid);
    } else {
-      return Promise.reject(errOutputInvalid);
+      return BluebirdPromise.reject(errOutputInvalid);
    }
  } else {
    if (this.options.fileIn === output) {
@@ -300,7 +395,7 @@ Sharp.prototype.toFile = function(output, callback) {
      if (typeof callback === 'function') {
        callback(errOutputIsInput);
      } else {
-        return Promise.reject(errOutputIsInput);
+        return BluebirdPromise.reject(errOutputIsInput);
      }
    } else {
      this.options.output = output;
@@ -387,7 +482,7 @@ Sharp.prototype._sharp = function(callback) {
    // output=promise
    if (this.options.streamIn) {
      // output=promise, input=stream
-      return new Promise(function(resolve, reject) {
+      return new BluebirdPromise(function(resolve, reject) {
        that.on('finish', function() {
          sharp.resize(that.options, function(err, data) {
            if (err) {
@@ -400,7 +495,7 @@ Sharp.prototype._sharp = function(callback) {
      });
    } else {
      // output=promise, input=file/buffer
-      return new Promise(function(resolve, reject) {
+      return new BluebirdPromise(function(resolve, reject) {
        sharp.resize(that.options, function(err, data) {
          if (err) {
            reject(err);
@@ -430,7 +525,7 @@ Sharp.prototype.metadata = function(callback) {
    return this;
  } else {
    if (this.options.streamIn) {
-      return new Promise(function(resolve, reject) {
+      return new BluebirdPromise(function(resolve, reject) {
        that.on('finish', function() {
          sharp.metadata(that.options, function(err, data) {
            if (err) {
@@ -442,7 +537,7 @@ Sharp.prototype.metadata = function(callback) {
        });
      });
    } else {
-      return new Promise(function(resolve, reject) {
+      return new BluebirdPromise(function(resolve, reject) {
        sharp.metadata(that.options, function(err, data) {
          if (err) {
            reject(err);
@@ -459,10 +554,10 @@ Sharp.prototype.metadata = function(callback) {
  Get and set cache memory and item limits
 */
 module.exports.cache = function(memory, items) {
-  if (Number.isNaN(memory)) {
+  if (typeof memory !== 'number' || Number.isNaN(memory)) {
    memory = null;
  }
-  if (Number.isNaN(items)) {
+  if (typeof items !== 'number' || Number.isNaN(items)) {
    items = null;
  }
  return sharp.cache(memory, items);
@@ -472,7 +567,7 @@ module.exports.cache = function(memory, items) {
  Get and set size of thread pool
 */
 module.exports.concurrency = function(concurrency) {
-  if (Number.isNaN(concurrency)) {
+  if (typeof concurrency !== 'number' || Number.isNaN(concurrency)) {
    concurrency = null;
  }
  return sharp.concurrency(concurrency);
@@ -484,3 +579,10 @@ module.exports.concurrency = function(concurrency) {
 module.exports.counters = function() {
  return sharp.counters();
 };
 /*
  Get the version of the libvips library
 */
 module.exports.libvipsVersion = function() {
  return libvipsVersion;
 };
--- a/package.json
+++ b/package.json
@@ -1,6 +1,6 @@
 {
  "name": "sharp",
-  "version": "0.7.0",
+  "version": "0.8.0",
  "author": "Lovell Fuller <npm@lovell.info>",
  "contributors": [
    "Pierre Inglebert <pierre.inglebert@gmail.com>",
@@ -10,11 +10,12 @@
    "Daniel Gasienica <daniel@gasienica.ch>",
    "Julian Walker <julian@fiftythree.com>",
    "Amit Pitaru <pitaru.amit@gmail.com>",
-    "Brandon Aaron <hello.brandon@aaron.sh>"
+    "Brandon Aaron <hello.brandon@aaron.sh>",
    "Andreas Lind <andreas@one.com>"
  ],
-  "description": "High performance Node.js module to resize JPEG, PNG and WebP images using the libvips library",
+  "description": "High performance Node.js module to resize JPEG, PNG, WebP and TIFF images using the libvips library",
  "scripts": {
-    "test": "node tests/unit && node tests/perf"
+    "test": "node ./node_modules/istanbul/lib/cli.js cover ./node_modules/mocha/bin/_mocha -- --slow=5000 --timeout=10000 ./test/unit/*.js"
  },
  "main": "index.js",
  "repository": {
@@ -35,21 +36,19 @@
    "embed",
    "libvips",
    "vips",
    "fast",
    "buffer",
    "stream"
  ],
  "dependencies": {
-    "bluebird": "^2.3.5",
+    "bluebird": "^2.3.11",
    "color": "^0.7.1",
-    "nan": "^1.3.0"
+    "nan": "^1.4.1",
    "semver": "^4.1.0"
  },
  "devDependencies": {
-    "imagemagick": "^0.1.3",
+    "mocha": "^2.0.1",
-    "imagemagick-native": "^1.4.0",
+    "mocha-jshint": "^0.0.9",
-    "gm": "^1.16.0",
+    "istanbul": "^0.3.2",
-    "async": "^0.9.0",
+    "coveralls": "^2.11.2"
    "benchmark": "^1.0.0"
  },
  "license": "Apache 2.0",
  "engines": {
--- a/preinstall.sh
+++ b/preinstall.sh
@@ -0,0 +1,151 @@
 #!/bin/sh
 # Ensures libvips is installed and attempts to install it if not
 # Currently supports:
 # * Mac OS
 # * Debian Linux
 #   * Debian 7, 8
 #   * Ubuntu 12.04, 14.04, 14.10, 15.04
 #   * Mint 13, 17
 # * Red Hat Linux
 #   * RHEL/Centos/Scientific 6, 7
 #   * Fedora 21, 22
 vips_version_minimum=7.40.0
 vips_version_latest_major=7.40
 vips_version_latest_minor=11
 install_libvips_from_source() {
  echo "Compiling libvips $vips_version_latest_major.$vips_version_latest_minor from source"
  curl -O http://www.vips.ecs.soton.ac.uk/supported/$vips_version_latest_major/vips-$vips_version_latest_major.$vips_version_latest_minor.tar.gz
  tar zvxf vips-$vips_version_latest_major.$vips_version_latest_minor.tar.gz
  cd vips-$vips_version_latest_major.$vips_version_latest_minor
  ./configure --enable-debug=no --enable-docs=no --enable-cxx=yes --without-python --without-orc --without-fftw $1
  make
  make install
  cd ..
  rm -rf vips-$vips_version_latest_major.$vips_version_latest_minor
  rm vips-$vips_version_latest_major.$vips_version_latest_minor.tar.gz
  ldconfig
  echo "Installed libvips $vips_version_latest_major.$vips_version_latest_minor"
 }
 sorry() {
  echo "Sorry, I don't yet know how to install libvips on $1"
  exit 1
 }
 # Is libvips already installed, and is it at least the minimum required version?
 if ! type pkg-config >/dev/null; then
  sorry "a system without pkg-config"
 fi
 pkg_config_path_homebrew=`which brew >/dev/null 2>&1 && eval $(brew --env) && echo $PKG_CONFIG_LIBDIR || true`
 pkg_config_path="$pkg_config_path_homebrew:$PKG_CONFIG_PATH:/usr/local/lib/pkgconfig:/usr/lib/pkgconfig"
 PKG_CONFIG_PATH=$pkg_config_path pkg-config --exists vips
 if [ $? -eq 0 ]; then
  vips_version_found=$(PKG_CONFIG_PATH=$pkg_config_path pkg-config --modversion vips)
  pkg-config --atleast-version=$vips_version_minimum vips
  if [ $? -eq 0 ]; then
    # Found suitable version of libvips
    echo "Found libvips $vips_version_found"
    exit 0
  fi
  echo "Found libvips $vips_version_found but require $vips_version_minimum"
 else
  echo "Could not find libvips using a PKG_CONFIG_PATH of '$pkg_config_path'"
 fi
 # Verify root/sudo access
 if [ "$(id -u)" -ne "0" ]; then
  echo "Sorry, I need root/sudo access to continue"
  exit 1
 fi
 # OS-specific installations of libvips follows
 case $(uname -s) in
  *[Dd]arwin*)
    # Mac OS
    echo "Detected Mac OS"
    if type "brew" > /dev/null; then
      echo "Installing libvips via homebrew"
      brew install homebrew/science/vips --with-webp --with-graphicsmagick
    elif type "port" > /dev/null; then
      echo "Installing libvips via MacPorts"
      port install vips
    else
      sorry "Mac OS without homebrew or MacPorts"
    fi
    ;;
  *)
    if [ -f /etc/debian_version ]; then
      # Debian Linux
      DISTRO=$(lsb_release -c -s)
      echo "Detected Debian Linux '$DISTRO'"
      case "$DISTRO" in
        jessie|vivid)
          # Debian 8, Ubuntu 15
          echo "Installing libvips via apt-get"
          apt-get install -y libvips-dev
          ;;
        trusty|utopic|qiana|rebecca)
          # Ubuntu 14, Mint 17
          echo "Installing libvips dependencies via apt-get"
          apt-get install -y automake build-essential gobject-introspection gtk-doc-tools libglib2.0-dev libjpeg-turbo8-dev libpng12-dev libwebp-dev libtiff5-dev libexif-dev libxml2-dev swig libmagickwand-dev curl
          install_libvips_from_source
          ;;
        precise|wheezy|maya)
          # Debian 7, Ubuntu 12.04, Mint 13
          echo "Installing libvips dependencies via apt-get"
          add-apt-repository -y ppa:lyrasis/precise-backports
          apt-get update
          apt-get install -y automake build-essential gobject-introspection gtk-doc-tools libglib2.0-dev libjpeg-turbo8-dev libpng12-dev libwebp-dev libtiff4-dev libexif-dev libxml2-dev swig libmagickwand-dev curl
          install_libvips_from_source
          ;;
        *)
          # Unsupported Debian-based OS
          sorry "Debian-based $DISTRO"
          ;;
      esac
    elif [ -f /etc/redhat-release ]; then
      # Red Hat Linux
      RELEASE=$(cat /etc/redhat-release)
      echo "Detected Red Hat Linux '$RELEASE'"
      case $RELEASE in
        "Red Hat Enterprise Linux release 7."*|"CentOS Linux release 7."*|"Scientific Linux release 7."*)
          # RHEL/CentOS 7
          echo "Installing libvips dependencies via yum"
          yum groupinstall -y "Development Tools"
          yum install -y gtk-doc libxml2-devel libjpeg-turbo-devel libpng-devel libtiff-devel libexif-devel ImageMagick-devel gobject-introspection-devel libwebp-devel curl
          install_libvips_from_source "--prefix=/usr"
          ;;
        "Red Hat Enterprise Linux release 6."*|"CentOS release 6."*|"Scientific Linux release 6."*)
          # RHEL/CentOS 6
          echo "Installing libvips dependencies via yum"
          yum groupinstall -y "Development Tools"
          yum install -y gtk-doc libxml2-devel libjpeg-turbo-devel libpng-devel libtiff-devel libexif-devel ImageMagick-devel curl
          yum install -y http://li.nux.ro/download/nux/dextop/el6/x86_64/nux-dextop-release-0-2.el6.nux.noarch.rpm
          yum install -y --enablerepo=nux-dextop gobject-introspection-devel
          yum install -y http://rpms.famillecollet.com/enterprise/remi-release-6.rpm
          yum install -y --enablerepo=remi libwebp-devel
          install_libvips_from_source "--prefix=/usr"
          ;;
        "Fedora release 21 "*|"Fedora release 22 "*)
          # Fedora 21, 22
          echo "Installing libvips via yum"
          yum install vips-devel
          ;;
        *)
          # Unsupported RHEL-based OS
          sorry "$RELEASE"
          ;;
      esac
    else
      # Unsupported OS
      sorry "$(uname -a)"
    fi
    ;;
 esac
--- a/src/common.cc
+++ b/src/common.cc
@@ -0,0 +1,158 @@
 #include <string>
 #include <string.h>
 #include <vips/vips.h>
 #include "common.h"
 namespace sharp {
  // How many tasks are in the queue?
  volatile int counterQueue = 0;
  // How many tasks are being processed?
  volatile int counterProcess = 0;
  // Filename extension checkers
  static bool EndsWith(std::string const &str, std::string const &end) {
    return str.length() >= end.length() && 0 == str.compare(str.length() - end.length(), end.length(), end);
  }
  bool IsJpeg(std::string const &str) {
    return EndsWith(str, ".jpg") || EndsWith(str, ".jpeg") || EndsWith(str, ".JPG") || EndsWith(str, ".JPEG");
  }
  bool IsPng(std::string const &str) {
    return EndsWith(str, ".png") || EndsWith(str, ".PNG");
  }
  bool IsWebp(std::string const &str) {
    return EndsWith(str, ".webp") || EndsWith(str, ".WEBP");
  }
  bool IsTiff(std::string const &str) {
    return EndsWith(str, ".tif") || EndsWith(str, ".tiff") || EndsWith(str, ".TIF") || EndsWith(str, ".TIFF");
  }
  // Buffer content checkers
  unsigned char const MARKER_JPEG[] = {0xff, 0xd8};
  unsigned char const MARKER_PNG[] = {0x89, 0x50};
  unsigned char const MARKER_WEBP[] = {0x52, 0x49};
  static bool buffer_is_tiff(char *buffer, size_t len) {
    return (
      len >= 4 && (
        (buffer[0] == 'M' && buffer[1] == 'M' && buffer[2] == '\0' && (buffer[3] == '*' || buffer[3] == '+')) ||
        (buffer[0] == 'I' && buffer[1] == 'I' && (buffer[2] == '*' || buffer[2] == '+') && buffer[3] == '\0')
      )
    );
  }
  /*
    Determine image format of a buffer.
  */
  ImageType DetermineImageType(void *buffer, size_t const length) {
    ImageType imageType = ImageType::UNKNOWN;
    if (length >= 4) {
      if (memcmp(MARKER_JPEG, buffer, 2) == 0) {
        imageType = ImageType::JPEG;
      } else if (memcmp(MARKER_PNG, buffer, 2) == 0) {
        imageType = ImageType::PNG;
      } else if (memcmp(MARKER_WEBP, buffer, 2) == 0) {
        imageType = ImageType::WEBP;
      } else if (buffer_is_tiff(static_cast<char*>(buffer), length)) {
        imageType = ImageType::TIFF;
      }
    }
    return imageType;
  }
  /*
    Initialise and return a VipsImage from a buffer. Supports JPEG, PNG, WebP and TIFF.
  */
  VipsImage* InitImage(ImageType imageType, void *buffer, size_t const length, VipsAccess const access) {
    VipsImage *image = NULL;
    if (imageType == ImageType::JPEG) {
      vips_jpegload_buffer(buffer, length, &image, "access", access, NULL);
    } else if (imageType == ImageType::PNG) {
      vips_pngload_buffer(buffer, length, &image, "access", access, NULL);
    } else if (imageType == ImageType::WEBP) {
      vips_webpload_buffer(buffer, length, &image, "access", access, NULL);
    } else if (imageType == ImageType::TIFF) {
      vips_tiffload_buffer(buffer, length, &image, "access", access, NULL);
    }
    return image;
  }
  /*
    Inpect the first 2-4 bytes of a file to determine image format
  */
  ImageType DetermineImageType(char const *file) {
    ImageType imageType = ImageType::UNKNOWN;
    if (vips_foreign_is_a("jpegload", file)) {
      imageType = ImageType::JPEG;
    } else if (vips_foreign_is_a("pngload", file)) {
      imageType = ImageType::PNG;
    } else if (vips_foreign_is_a("webpload", file)) {
      imageType = ImageType::WEBP;
    } else if (vips_foreign_is_a("tiffload", file)) {
      imageType = ImageType::TIFF;
    } else if(vips_foreign_is_a("magickload", file)) {
      imageType = ImageType::MAGICK;
    }
    return imageType;
  }
  /*
    Initialise and return a VipsImage from a file.
  */
  VipsImage* InitImage(ImageType imageType, char const *file, VipsAccess const access) {
    VipsImage *image = NULL;
    if (imageType == ImageType::JPEG) {
      vips_jpegload(file, &image, "access", access, NULL);
    } else if (imageType == ImageType::PNG) {
      vips_pngload(file, &image, "access", access, NULL);
    } else if (imageType == ImageType::WEBP) {
      vips_webpload(file, &image, "access", access, NULL);
    } else if (imageType == ImageType::TIFF) {
      vips_tiffload(file, &image, "access", access, NULL);
    } else if (imageType == ImageType::MAGICK) {
      vips_magickload(file, &image, "access", access, NULL);
    }
    return image;
  }
  /*
    Does this image have an alpha channel?
    Uses colour space interpretation with number of channels to guess this.
  */
  bool HasAlpha(VipsImage *image) {
    return (
      (image->Bands == 2 && image->Type == VIPS_INTERPRETATION_B_W) ||
      (image->Bands == 4 && image->Type != VIPS_INTERPRETATION_CMYK) ||
      (image->Bands == 5 && image->Type == VIPS_INTERPRETATION_CMYK)
    );
  }
  /*
    Get EXIF Orientation of image, if any.
  */
  int ExifOrientation(VipsImage const *image) {
    int orientation = 0;
    const char *exif;
    if (
      vips_image_get_typeof(image, "exif-ifd0-Orientation") != 0 &&
      !vips_image_get_string(image, "exif-ifd0-Orientation", &exif)
    ) {
      orientation = atoi(&exif[0]);
    }
    return orientation;
  }
  /*
    Returns the window size for the named interpolator. For example,
    a window size of 3 means a 3x3 pixel grid is used for the calculation.
  */
  int InterpolatorWindowSize(char const *name) {
    VipsInterpolate *interpolator = vips_interpolate_new(name);
    int window_size = vips_interpolate_get_window_size(interpolator);
    g_object_unref(interpolator);
    return window_size;
  }
 } // namespace
--- a/src/common.h
+++ b/src/common.h
@@ -0,0 +1,66 @@
 #ifndef SHARP_COMMON_H
 #define SHARP_COMMON_H
 namespace sharp {
  enum class ImageType {
    UNKNOWN,
    JPEG,
    PNG,
    WEBP,
    TIFF,
    MAGICK
  };
  // How many tasks are in the queue?
  extern volatile int counterQueue;
  // How many tasks are being processed?
  extern volatile int counterProcess;
  // Filename extension checkers
  bool IsJpeg(std::string const &str);
  bool IsPng(std::string const &str);
  bool IsWebp(std::string const &str);
  bool IsTiff(std::string const &str);
  /*
    Determine image format of a buffer.
  */
  ImageType DetermineImageType(void *buffer, size_t const length);
  /*
    Determine image format of a file.
  */
  ImageType DetermineImageType(char const *file);
  /*
    Initialise and return a VipsImage from a buffer. Supports JPEG, PNG, WebP and TIFF.
  */
  VipsImage* InitImage(ImageType imageType, void *buffer, size_t const length, VipsAccess const access);
  /*
    Initialise and return a VipsImage from a file.
  */
  VipsImage* InitImage(ImageType imageType, char const *file, VipsAccess const access);
  /*
    Does this image have an alpha channel?
    Uses colour space interpretation with number of channels to guess this.
  */
  bool HasAlpha(VipsImage *image);
  /*
    Get EXIF Orientation of image, if any.
  */
  int ExifOrientation(VipsImage const *image);
  /*
    Returns the window size for the named interpolator. For example,
    a window size of 3 means a 3x3 pixel grid is used for the calculation.
  */
  int InterpolatorWindowSize(char const *name);
 } // namespace
 #endif
--- a/src/metadata.cc
+++ b/src/metadata.cc
@@ -0,0 +1,145 @@
 #include <node.h>
 #include <vips/vips.h>
 #include "nan.h"
 #include "common.h"
 #include "metadata.h"
 using namespace v8;
 using namespace sharp;
 struct MetadataBaton {
  // Input
  std::string fileIn;
  void* bufferIn;
  size_t bufferInLength;
  // Output
  std::string format;
  int width;
  int height;
  std::string space;
  int channels;
  bool hasAlpha;
  int orientation;
  std::string err;
  MetadataBaton():
    bufferInLength(0),
    orientation(0) {}
 };
 class MetadataWorker : public NanAsyncWorker {
 public:
  MetadataWorker(NanCallback *callback, MetadataBaton *baton) : NanAsyncWorker(callback), baton(baton) {}
  ~MetadataWorker() {}
  void Execute() {
    // Decrement queued task counter
    g_atomic_int_dec_and_test(&counterQueue);
    ImageType imageType = ImageType::UNKNOWN;
    VipsImage *image = NULL;
    if (baton->bufferInLength > 1) {
      // From buffer
      imageType = DetermineImageType(baton->bufferIn, baton->bufferInLength);
      if (imageType != ImageType::UNKNOWN) {
        image = InitImage(imageType, baton->bufferIn, baton->bufferInLength, VIPS_ACCESS_RANDOM);
      } else {
        (baton->err).append("Input buffer contains unsupported image format");
      }
    } else {
      // From file
      imageType = DetermineImageType(baton->fileIn.c_str());
      if (imageType != ImageType::UNKNOWN) {
        image = InitImage(imageType, baton->fileIn.c_str(), VIPS_ACCESS_RANDOM);
      } else {
        (baton->err).append("File is of an unsupported image format");
      }
    }
    if (image != NULL && imageType != ImageType::UNKNOWN) {
      // Image type
      switch (imageType) {
        case ImageType::JPEG: baton->format = "jpeg"; break;
        case ImageType::PNG: baton->format = "png"; break;
        case ImageType::WEBP: baton->format = "webp"; break;
        case ImageType::TIFF: baton->format = "tiff"; break;
        case ImageType::MAGICK: baton->format = "magick"; break;
        case ImageType::UNKNOWN: break;
      }
      // VipsImage attributes
      baton->width = image->Xsize;
      baton->height = image->Ysize;
      baton->space = vips_enum_nick(VIPS_TYPE_INTERPRETATION, image->Type);
      baton->channels = image->Bands;
      // Derived attributes
      baton->hasAlpha = HasAlpha(image);
      baton->orientation = ExifOrientation(image);
      // Drop image reference
      g_object_unref(image);
    }
    // Clean up
    vips_error_clear();
    vips_thread_shutdown();
  }
  void HandleOKCallback () {
    NanScope();
    Handle<Value> argv[2] = { NanNull(), NanNull() };
    if (!baton->err.empty()) {
      // Error
      argv[0] = Exception::Error(NanNew<String>(baton->err.data(), baton->err.size()));
    } else {
      // Metadata Object
      Local<Object> info = NanNew<Object>();
      info->Set(NanNew<String>("format"), NanNew<String>(baton->format));
      info->Set(NanNew<String>("width"), NanNew<Number>(baton->width));
      info->Set(NanNew<String>("height"), NanNew<Number>(baton->height));
      info->Set(NanNew<String>("space"), NanNew<String>(baton->space));
      info->Set(NanNew<String>("channels"), NanNew<Number>(baton->channels));
      info->Set(NanNew<String>("hasAlpha"), NanNew<Boolean>(baton->hasAlpha));
      if (baton->orientation > 0) {
        info->Set(NanNew<String>("orientation"), NanNew<Number>(baton->orientation));
      }
      argv[1] = info;
    }
    delete baton;
    // Return to JavaScript
    callback->Call(2, argv);
  }
 private:
  MetadataBaton* baton;
 };
 /*
  metadata(options, callback)
 */
 NAN_METHOD(metadata) {
  NanScope();
  // V8 objects are converted to non-V8 types held in the baton struct
  MetadataBaton *baton = new MetadataBaton;
  Local<Object> options = args[0]->ToObject();
  // Input filename
  baton->fileIn = *String::Utf8Value(options->Get(NanNew<String>("fileIn"))->ToString());
  // Input Buffer object
  if (options->Get(NanNew<String>("bufferIn"))->IsObject()) {
    Local<Object> buffer = options->Get(NanNew<String>("bufferIn"))->ToObject();
    baton->bufferInLength = node::Buffer::Length(buffer);
    baton->bufferIn = node::Buffer::Data(buffer);
  }
  // Join queue for worker thread
  NanCallback *callback = new NanCallback(args[1].As<v8::Function>());
  NanAsyncQueueWorker(new MetadataWorker(callback, baton));
  // Increment queued task counter
  g_atomic_int_inc(&counterQueue);
  NanReturnUndefined();
 }
--- a/src/metadata.h
+++ b/src/metadata.h
@@ -0,0 +1,8 @@
 #ifndef SHARP_METADATA_H
 #define SHARP_METADATA_H
 #include "nan.h"
 NAN_METHOD(metadata);
 #endif
--- a/src/resize.cc
+++ b/src/resize.cc
@@ -0,0 +1,876 @@
 #include <tuple>
 #include <algorithm>
 #include <cmath>
 #include <node.h>
 #include <node_buffer.h>
 #include <vips/vips.h>
 #include "nan.h"
 #include "common.h"
 #include "resize.h"
 using namespace v8;
 using namespace sharp;
 enum class Canvas {
  CROP,
  MAX,
  EMBED
 };
 enum class Angle {
 	D0,
 	D90,
 	D180,
 	D270,
 	DLAST
 };
 struct ResizeBaton {
  std::string fileIn;
  void* bufferIn;
  size_t bufferInLength;
  std::string iccProfileCmyk;
  std::string output;
  std::string outputFormat;
  void* bufferOut;
  size_t bufferOutLength;
  int topOffsetPre;
  int leftOffsetPre;
  int widthPre;
  int heightPre;
  int topOffsetPost;
  int leftOffsetPost;
  int widthPost;
  int heightPost;
  int width;
  int height;
  Canvas canvas;
  int gravity;
  std::string interpolator;
  double background[4];
  bool flatten;
  int blurRadius;
  int sharpenRadius;
  double sharpenFlat;
  double sharpenJagged;
  double gamma;
  bool greyscale;
  int angle;
  bool flip;
  bool flop;
  bool progressive;
  bool withoutEnlargement;
  VipsAccess accessMethod;
  int quality;
  int compressionLevel;
  bool withoutAdaptiveFiltering;
  std::string err;
  bool withMetadata;
  ResizeBaton():
    bufferInLength(0),
    outputFormat(""),
    bufferOutLength(0),
    topOffsetPre(-1),
    topOffsetPost(-1),
    canvas(Canvas::CROP),
    gravity(0),
    flatten(false),
    blurRadius(0),
    sharpenRadius(0),
    sharpenFlat(1.0),
    sharpenJagged(2.0),
    gamma(0.0),
    greyscale(false),
    angle(0),
    flip(false),
    flop(false),
    progressive(false),
    withoutEnlargement(false),
    quality(80),
    compressionLevel(6),
    withoutAdaptiveFiltering(false),
    withMetadata(false) {
      background[0] = 0.0;
      background[1] = 0.0;
      background[2] = 0.0;
      background[3] = 255.0;
    }
 };
 class ResizeWorker : public NanAsyncWorker {
 public:
  ResizeWorker(NanCallback *callback, ResizeBaton *baton) : NanAsyncWorker(callback), baton(baton) {}
  ~ResizeWorker() {}
  /*
    libuv worker
  */
  void Execute() {
    // Decrement queued task counter
    g_atomic_int_dec_and_test(&counterQueue);
    // Increment processing task counter
    g_atomic_int_inc(&counterProcess);
    // Hang image references from this hook object
    VipsObject *hook = reinterpret_cast<VipsObject*>(vips_image_new());
    // Input
    ImageType inputImageType = ImageType::UNKNOWN;
    VipsImage *image;
    if (baton->bufferInLength > 1) {
      // From buffer
      inputImageType = DetermineImageType(baton->bufferIn, baton->bufferInLength);
      if (inputImageType != ImageType::UNKNOWN) {
        image = InitImage(inputImageType, baton->bufferIn, baton->bufferInLength, baton->accessMethod);
      } else {
        (baton->err).append("Input buffer contains unsupported image format");
      }
    } else {
      // From file
      inputImageType = DetermineImageType(baton->fileIn.c_str());
      if (inputImageType != ImageType::UNKNOWN) {
        image = InitImage(inputImageType, baton->fileIn.c_str(), baton->accessMethod);
      } else {
        (baton->err).append("File is of an unsupported image format");
      }
    }
    if (inputImageType == ImageType::UNKNOWN) {
      return Error(baton, hook);
    }
    vips_object_local(hook, image);
    // Pre extraction
    if (baton->topOffsetPre != -1) {
      VipsImage *extractedPre;
      if (vips_extract_area(image, &extractedPre, baton->leftOffsetPre, baton->topOffsetPre, baton->widthPre, baton->heightPre, NULL)) {
        return Error(baton, hook);
      }
      vips_object_local(hook, extractedPre);
      image = extractedPre;
    }
    // Get input image width and height
    int inputWidth = image->Xsize;
    int inputHeight = image->Ysize;
    // Calculate angle of rotation, to be carried out later
    Angle rotation;
    bool flip;
    std::tie(rotation, flip) = CalculateRotationAndFlip(baton->angle, image);
    if (rotation == Angle::D90 || rotation == Angle::D270) {
      // Swap input output width and height when rotating by 90 or 270 degrees
      int swap = inputWidth;
      inputWidth = inputHeight;
      inputHeight = swap;
    }
    if (flip && !baton->flip) {
      // Add flip operation due to EXIF mirroring
      baton->flip = TRUE;
    }
    // Get window size of interpolator, used for determining shrink vs affine
    int interpolatorWindowSize = InterpolatorWindowSize(baton->interpolator.c_str());
    // Scaling calculations
    double factor;
    if (baton->width > 0 && baton->height > 0) {
      // Fixed width and height
      double xfactor = static_cast<double>(inputWidth) / static_cast<double>(baton->width);
      double yfactor = static_cast<double>(inputHeight) / static_cast<double>(baton->height);
      factor = (baton->canvas == Canvas::CROP) ? std::min(xfactor, yfactor) : std::max(xfactor, yfactor);
      // if max is set, we need to compute the real size of the thumb image
      if (baton->canvas == Canvas::MAX) {
        if (xfactor > yfactor) {
          baton->height = round(static_cast<double>(inputHeight) / xfactor);
        } else {
          baton->width = round(static_cast<double>(inputWidth) / yfactor);
        }
      }
    } else if (baton->width > 0) {
      // Fixed width, auto height
      factor = static_cast<double>(inputWidth) / static_cast<double>(baton->width);
      baton->height = floor(static_cast<double>(inputHeight) / factor);
    } else if (baton->height > 0) {
      // Fixed height, auto width
      factor = static_cast<double>(inputHeight) / static_cast<double>(baton->height);
      baton->width = floor(static_cast<double>(inputWidth) / factor);
    } else {
      // Identity transform
      factor = 1;
      baton->width = inputWidth;
      baton->height = inputHeight;
    }
    // Calculate integral box shrink
    int shrink = 1;
    if (factor >= 2 && interpolatorWindowSize > 3) {
      // Shrink less, affine more with interpolators that use at least 4x4 pixel window, e.g. bicubic
      shrink = floor(factor * 3.0 / interpolatorWindowSize);
    } else {
      shrink = floor(factor);
    }
    if (shrink < 1) {
      shrink = 1;
    }
    // Calculate residual float affine transformation
    double residual = static_cast<double>(shrink) / factor;
    // Do not enlarge the output if the input width *or* height are already less than the required dimensions
    if (baton->withoutEnlargement) {
      if (inputWidth < baton->width || inputHeight < baton->height) {
        factor = 1;
        shrink = 1;
        residual = 0;
        baton->width = inputWidth;
        baton->height = inputHeight;
      }
    }
    // Try to use libjpeg shrink-on-load, but not when applying gamma correction or pre-resize extract
    int shrink_on_load = 1;
    if (inputImageType == ImageType::JPEG && shrink >= 2 && baton->gamma == 0 && baton->topOffsetPre == -1) {
      if (shrink >= 8) {
        factor = factor / 8;
        shrink_on_load = 8;
      } else if (shrink >= 4) {
        factor = factor / 4;
        shrink_on_load = 4;
      } else if (shrink >= 2) {
        factor = factor / 2;
        shrink_on_load = 2;
      }
    }
    if (shrink_on_load > 1) {
      // Recalculate integral shrink and double residual
      factor = std::max(factor, 1.0);
      if (factor >= 2 && interpolatorWindowSize > 3) {
        shrink = floor(factor * 3.0 / interpolatorWindowSize);
      } else {
        shrink = floor(factor);
      }
      residual = static_cast<double>(shrink) / factor;
      // Reload input using shrink-on-load
      VipsImage *shrunkOnLoad;
      if (baton->bufferInLength > 1) {
        if (vips_jpegload_buffer(baton->bufferIn, baton->bufferInLength, &shrunkOnLoad, "shrink", shrink_on_load, NULL)) {
          return Error(baton, hook);
        }
      } else {
        if (vips_jpegload((baton->fileIn).c_str(), &shrunkOnLoad, "shrink", shrink_on_load, NULL)) {
          return Error(baton, hook);
        }
      }
      vips_object_local(hook, shrunkOnLoad);
      image = shrunkOnLoad;
    }
    // Handle colour profile, if any, for non sRGB images
    if (image->Type != VIPS_INTERPRETATION_sRGB) {
      // Get the input colour profile
      if (vips_image_get_typeof(image, VIPS_META_ICC_NAME)) {
        VipsImage *profile;
        // Use embedded profile
        if (vips_icc_import(image, &profile, "pcs", VIPS_PCS_XYZ, "embedded", TRUE, NULL)) {
          return Error(baton, hook);
        }
        vips_object_local(hook, profile);
        image = profile;
      } else if (image->Type == VIPS_INTERPRETATION_CMYK) {
        VipsImage *profile;
        // CMYK with no embedded profile
        if (vips_icc_import(image, &profile, "pcs", VIPS_PCS_XYZ, "input_profile", (baton->iccProfileCmyk).c_str(), NULL)) {
          return Error(baton, hook);
        }
        vips_object_local(hook, profile);
        image = profile;
      }
      // Attempt to convert to sRGB colour space
      VipsImage *colourspaced;
      if (vips_colourspace(image, &colourspaced, VIPS_INTERPRETATION_sRGB, NULL)) {
        return Error(baton, hook);
      }
      vips_object_local(hook, colourspaced);
      image = colourspaced;
    }
    // Flatten image to remove alpha channel
    if (baton->flatten && HasAlpha(image)) {
      // Background colour
      VipsArrayDouble *background = vips_array_double_newv(
        3, // Ignore alpha channel as we're about to remove it
        baton->background[0],
        baton->background[1],
        baton->background[2]
      );
      VipsImage *flattened;
      if (vips_flatten(image, &flattened, "background", background, NULL)) {
        vips_area_unref(reinterpret_cast<VipsArea*>(background));
        return Error(baton, hook);
      };
      vips_area_unref(reinterpret_cast<VipsArea*>(background));
      vips_object_local(hook, flattened);
      image = flattened;
    }
    // Gamma encoding (darken)
    if (baton->gamma >= 1 && baton->gamma <= 3) {
      VipsImage *gammaEncoded;
      if (vips_gamma(image, &gammaEncoded, "exponent", 1.0 / baton->gamma, NULL)) {
        return Error(baton, hook);
      }
      vips_object_local(hook, gammaEncoded);
      image = gammaEncoded;
    }
    // Convert to greyscale (linear, therefore after gamma encoding, if any)
    if (baton->greyscale) {
      VipsImage *greyscale;
      if (vips_colourspace(image, &greyscale, VIPS_INTERPRETATION_B_W, NULL)) {
        return Error(baton, hook);
      }
      vips_object_local(hook, greyscale);
      image = greyscale;
    }
    if (shrink > 1) {
      VipsImage *shrunk;
      // Use vips_shrink with the integral reduction
      if (vips_shrink(image, &shrunk, shrink, shrink, NULL)) {
        return Error(baton, hook);
      }
      vips_object_local(hook, shrunk);
      image = shrunk;
      // Recalculate residual float based on dimensions of required vs shrunk images
      double shrunkWidth = shrunk->Xsize;
      double shrunkHeight = shrunk->Ysize;
      if (rotation == Angle::D90 || rotation == Angle::D270) {
        // Swap input output width and height when rotating by 90 or 270 degrees
        int swap = shrunkWidth;
        shrunkWidth = shrunkHeight;
        shrunkHeight = swap;
      }
      double residualx = static_cast<double>(baton->width) / static_cast<double>(shrunkWidth);
      double residualy = static_cast<double>(baton->height) / static_cast<double>(shrunkHeight);
      if (baton->canvas == Canvas::EMBED) {
        residual = std::min(residualx, residualy);
      } else {
        residual = std::max(residualx, residualy);
      }
    }
    // Use vips_affine with the remaining float part
    if (residual != 0) {
      // Apply variable blur radius of floor(residual) before large affine reductions
      if (residual >= 1) {
        VipsImage *blurred;
        if (vips_gaussblur(image, &blurred, floor(residual), NULL)) {
          return Error(baton, hook);
        }
        vips_object_local(hook, blurred);
        image = blurred;
      }
      // Create interpolator - "bilinear" (default), "bicubic" or "nohalo"
      VipsInterpolate *interpolator = vips_interpolate_new(baton->interpolator.c_str());
      vips_object_local(hook, interpolator);
      // Perform affine transformation
      VipsImage *affined;
      if (vips_affine(image, &affined, residual, 0, 0, residual, "interpolate", interpolator, NULL)) {
        return Error(baton, hook);
      }
      vips_object_local(hook, affined);
      image = affined;
    }
    // Rotate
    if (rotation != Angle::D0) {
      VipsImage *rotated;
      if (vips_rot(image, &rotated, static_cast<VipsAngle>(rotation), NULL)) {
        return Error(baton, hook);
      }
      vips_object_local(hook, rotated);
      image = rotated;
    }
    // Flip (mirror about Y axis)
    if (baton->flip) {
      VipsImage *flipped;
      if (vips_flip(image, &flipped, VIPS_DIRECTION_VERTICAL, NULL)) {
        return Error(baton, hook);
      }
      vips_object_local(hook, flipped);
      image = flipped;
    }
    // Flop (mirror about X axis)
    if (baton->flop) {
      VipsImage *flopped;
      if (vips_flip(image, &flopped, VIPS_DIRECTION_HORIZONTAL, NULL)) {
        return Error(baton, hook);
      }
      vips_object_local(hook, flopped);
      image = flopped;
    }
    // Crop/embed
    if (image->Xsize != baton->width || image->Ysize != baton->height) {
      if (baton->canvas == Canvas::EMBED) {
        // Match background colour space, namely sRGB
        if (image->Type != VIPS_INTERPRETATION_sRGB) {
          // Convert to sRGB colour space
          VipsImage *colourspaced;
          if (vips_colourspace(image, &colourspaced, VIPS_INTERPRETATION_sRGB, NULL)) {
            return Error(baton, hook);
          }
          vips_object_local(hook, colourspaced);
          image = colourspaced;
        }
        // Add non-transparent alpha channel, if required
        if (baton->background[3] < 255.0 && !HasAlpha(image)) {
          // Create single-channel transparency
          VipsImage *black;
          if (vips_black(&black, image->Xsize, image->Ysize, "bands", 1, NULL)) {
            return Error(baton, hook);
          }
          vips_object_local(hook, black);
          // Invert to become non-transparent
          VipsImage *alpha;
          if (vips_invert(black, &alpha, NULL)) {
            return Error(baton, hook);
          }
          vips_object_local(hook, alpha);
          // Append alpha channel to existing image
          VipsImage *joined;
          if (vips_bandjoin2(image, alpha, &joined, NULL)) {
            return Error(baton, hook);
          }
          vips_object_local(hook, joined);
          image = joined;
        }
        // Create background
        VipsArrayDouble *background;
        if (baton->background[3] < 255.0) {
          background = vips_array_double_newv(
            4, baton->background[0], baton->background[1], baton->background[2], baton->background[3]
          );
        } else {
          background = vips_array_double_newv(
            3, baton->background[0], baton->background[1], baton->background[2]
          );
        }
        // Embed
        int left = (baton->width - image->Xsize) / 2;
        int top = (baton->height - image->Ysize) / 2;
        VipsImage *embedded;
        if (vips_embed(image, &embedded, left, top, baton->width, baton->height,
          "extend", VIPS_EXTEND_BACKGROUND, "background", background, NULL
        )) {
          vips_area_unref(reinterpret_cast<VipsArea*>(background));
          return Error(baton, hook);
        }
        vips_area_unref(reinterpret_cast<VipsArea*>(background));
        vips_object_local(hook, embedded);
        image = embedded;
      } else {
        // Crop/max
        int left;
        int top;
        std::tie(left, top) = CalculateCrop(image->Xsize, image->Ysize, baton->width, baton->height, baton->gravity);
        int width = std::min(image->Xsize, baton->width);
        int height = std::min(image->Ysize, baton->height);
        VipsImage *extracted;
        if (vips_extract_area(image, &extracted, left, top, width, height, NULL)) {
          return Error(baton, hook);
        }
        vips_object_local(hook, extracted);
        image = extracted;
      }
    }
    // Post extraction
    if (baton->topOffsetPost != -1) {
      VipsImage *extractedPost;
      if (vips_extract_area(image, &extractedPost, baton->leftOffsetPost, baton->topOffsetPost, baton->widthPost, baton->heightPost, NULL)) {
        return Error(baton, hook);
      }
      vips_object_local(hook, extractedPost);
      image = extractedPost;
    }
    // Blur
    if (baton->blurRadius != 0) {
      VipsImage *blurred;
      if (baton->blurRadius == -1) {
        // Fast, mild blur
        VipsImage *blur = vips_image_new_matrixv(3, 3,
          1.0, 1.0, 1.0,
          1.0, 1.0, 1.0,
          1.0, 1.0, 1.0);
        vips_image_set_double(blur, "scale", 9);
        vips_object_local(hook, blur);
        if (vips_conv(image, &blurred, blur, NULL)) {
          return Error(baton, hook);
        }
      } else {
        // Slower, accurate Gaussian blur
        if (vips_gaussblur(image, &blurred, baton->blurRadius, NULL)) {
          return Error(baton, hook);
        }
      }
      vips_object_local(hook, blurred);
      image = blurred;
    }
    // Sharpen
    if (baton->sharpenRadius != 0) {
      VipsImage *sharpened;
      if (baton->sharpenRadius == -1) {
        // Fast, mild sharpen
        VipsImage *sharpen = vips_image_new_matrixv(3, 3,
          -1.0, -1.0, -1.0,
          -1.0, 32.0, -1.0,
          -1.0, -1.0, -1.0);
        vips_image_set_double(sharpen, "scale", 24);
        vips_object_local(hook, sharpen);
        if (vips_conv(image, &sharpened, sharpen, NULL)) {
          return Error(baton, hook);
        }
      } else {
        // Slow, accurate sharpen in LAB colour space, with control over flat vs jagged areas
        if (vips_sharpen(image, &sharpened, "radius", baton->sharpenRadius, "m1", baton->sharpenFlat, "m2", baton->sharpenJagged, NULL)) {
          return Error(baton, hook);
        }
      }
      vips_object_local(hook, sharpened);
      image = sharpened;
    }
    // Gamma decoding (brighten)
    if (baton->gamma >= 1 && baton->gamma <= 3) {
      VipsImage *gammaDecoded;
      if (vips_gamma(image, &gammaDecoded, "exponent", baton->gamma, NULL)) {
        return Error(baton, hook);
      }
      vips_object_local(hook, gammaDecoded);
      image = gammaDecoded;
    }
    // Convert to sRGB colour space, if not already
    if (image->Type != VIPS_INTERPRETATION_sRGB) {
      VipsImage *colourspaced;
      if (vips_colourspace(image, &colourspaced, VIPS_INTERPRETATION_sRGB, NULL)) {
        return Error(baton, hook);
      }
      vips_object_local(hook, colourspaced);
      image = colourspaced;
    }
 #if !(VIPS_MAJOR_VERSION >= 7 && VIPS_MINOR_VERSION >= 40 && VIPS_MINOR_VERSION >= 5)
    // Generate image tile cache when interlace output is required - no longer required as of libvips 7.40.5+
    if (baton->progressive) {
      VipsImage *cached;
      if (vips_tilecache(image, &cached, "threaded", TRUE, "persistent", TRUE, "max_tiles", -1, NULL)) {
        return Error(baton, hook);
      }
      vips_object_local(hook, cached);
      image = cached;
    }
 #endif
    // Output
    if (baton->output == "__jpeg" || (baton->output == "__input" && inputImageType == ImageType::JPEG)) {
      // Write JPEG to buffer
      if (vips_jpegsave_buffer(image, &baton->bufferOut, &baton->bufferOutLength, "strip", !baton->withMetadata,
        "Q", baton->quality, "optimize_coding", TRUE, "interlace", baton->progressive, NULL)) {
        return Error(baton, hook);
      }
      baton->outputFormat = "jpeg";
    } else if (baton->output == "__png" || (baton->output == "__input" && inputImageType == ImageType::PNG)) {
 #if (VIPS_MAJOR_VERSION >= 7 && VIPS_MINOR_VERSION >= 41)
      // Select PNG row filter
      int filter = baton->withoutAdaptiveFiltering ? VIPS_FOREIGN_PNG_FILTER_NONE : VIPS_FOREIGN_PNG_FILTER_ALL;
      // Write PNG to buffer
      if (vips_pngsave_buffer(image, &baton->bufferOut, &baton->bufferOutLength, "strip", !baton->withMetadata,
        "compression", baton->compressionLevel, "interlace", baton->progressive, "filter", filter, NULL)) {
        return Error(baton, hook);
      }
 #else
      // Write PNG to buffer
      if (vips_pngsave_buffer(image, &baton->bufferOut, &baton->bufferOutLength, "strip", !baton->withMetadata,
        "compression", baton->compressionLevel, "interlace", baton->progressive, NULL)) {
        return Error(baton, hook);
      }
 #endif
      baton->outputFormat = "png";
    } else if (baton->output == "__webp" || (baton->output == "__input" && inputImageType == ImageType::WEBP)) {
      // Write WEBP to buffer
      if (vips_webpsave_buffer(image, &baton->bufferOut, &baton->bufferOutLength, "strip", !baton->withMetadata,
        "Q", baton->quality, NULL)) {
        return Error(baton, hook);
      }
      baton->outputFormat = "webp";
    } else {
      bool outputJpeg = IsJpeg(baton->output);
      bool outputPng = IsPng(baton->output);
      bool outputWebp = IsWebp(baton->output);
      bool outputTiff = IsTiff(baton->output);
      bool matchInput = !(outputJpeg || outputPng || outputWebp || outputTiff);
      if (outputJpeg || (matchInput && inputImageType == ImageType::JPEG)) {
        // Write JPEG to file
        if (vips_jpegsave(image, baton->output.c_str(), "strip", !baton->withMetadata,
          "Q", baton->quality, "optimize_coding", TRUE, "interlace", baton->progressive, NULL)) {
          return Error(baton, hook);
        }
        baton->outputFormat = "jpeg";
      } else if (outputPng || (matchInput && inputImageType == ImageType::PNG)) {
 #if (VIPS_MAJOR_VERSION >= 7 && VIPS_MINOR_VERSION >= 41)
        // Select PNG row filter
        int filter = baton->withoutAdaptiveFiltering ? VIPS_FOREIGN_PNG_FILTER_NONE : VIPS_FOREIGN_PNG_FILTER_ALL;
        // Write PNG to file
        if (vips_pngsave(image, baton->output.c_str(), "strip", !baton->withMetadata,
          "compression", baton->compressionLevel, "interlace", baton->progressive, "filter", filter, NULL)) {
          return Error(baton, hook);
        }
 #else
        // Write PNG to file
        if (vips_pngsave(image, baton->output.c_str(), "strip", !baton->withMetadata,
          "compression", baton->compressionLevel, "interlace", baton->progressive, NULL)) {
          return Error(baton, hook);
        }
 #endif
        baton->outputFormat = "png";
      } else if (outputWebp || (matchInput && inputImageType == ImageType::WEBP)) {
        // Write WEBP to file
        if (vips_webpsave(image, baton->output.c_str(), "strip", !baton->withMetadata,
          "Q", baton->quality, NULL)) {
          return Error(baton, hook);
        }
        baton->outputFormat = "webp";
      } else if (outputTiff || (matchInput && inputImageType == ImageType::TIFF)) {
        // Write TIFF to file
        if (vips_tiffsave(image, baton->output.c_str(), "strip", !baton->withMetadata,
          "compression", VIPS_FOREIGN_TIFF_COMPRESSION_JPEG, "Q", baton->quality, NULL)) {
          return Error(baton, hook);
        }
        baton->outputFormat = "tiff";
      } else {
        (baton->err).append("Unsupported output " + baton->output);
        return Error(baton, hook);
      }
    }
    // Clean up any dangling image references
    g_object_unref(hook);
    // Clean up libvips' per-request data and threads
    vips_error_clear();
    vips_thread_shutdown();
  }
  void HandleOKCallback () {
    NanScope();
    Handle<Value> argv[3] = { NanNull(), NanNull(),  NanNull() };
    if (!baton->err.empty()) {
      // Error
      argv[0] = Exception::Error(NanNew<String>(baton->err.data(), baton->err.size()));
    } else {
      int width = baton->width;
      int height = baton->height;
      if (baton->topOffsetPre != -1 && (baton->width == -1 || baton->height == -1)) {
        width = baton->widthPre;
        height = baton->heightPre;
      }
      if (baton->topOffsetPost != -1) {
        width = baton->widthPost;
        height = baton->heightPost;
      }
      // Info Object
      Local<Object> info = NanNew<Object>();
      info->Set(NanNew<String>("format"), NanNew<String>(baton->outputFormat));
      info->Set(NanNew<String>("width"), NanNew<Number>(width));
      info->Set(NanNew<String>("height"), NanNew<Number>(height));
      if (baton->bufferOutLength > 0) {
        // Buffer
        argv[1] = NanNewBufferHandle(static_cast<char*>(baton->bufferOut), baton->bufferOutLength);
        g_free(baton->bufferOut);
        argv[2] = info;
      } else {
        // File
        argv[1] = info;
      }
    }
    delete baton;
    // Decrement processing task counter
    g_atomic_int_dec_and_test(&counterProcess);
    // Return to JavaScript
    callback->Call(3, argv);
  }
 private:
  ResizeBaton* baton;
  /*
    Calculate the angle of rotation and need-to-flip for the output image.
    In order of priority:
     1. Use explicitly requested angle (supports 90, 180, 270)
     2. Use input image EXIF Orientation header - supports mirroring
     3. Otherwise default to zero, i.e. no rotation
  */
  std::tuple<Angle, bool>
  CalculateRotationAndFlip(int const angle, VipsImage const *input) {
    Angle rotate = Angle::D0;
    bool flip = FALSE;
    if (angle == -1) {
      switch(ExifOrientation(input)) {
        case 6: rotate = Angle::D90; break;
        case 3: rotate = Angle::D180; break;
        case 8: rotate = Angle::D270; break;
        case 2: flip = TRUE; break; // flip 1
        case 7: flip = TRUE; rotate = Angle::D90; break; // flip 6
        case 4: flip = TRUE; rotate = Angle::D180; break; // flip 3
        case 5: flip = TRUE; rotate = Angle::D270; break; // flip 8
      }
    } else {
      if (angle == 90) {
        rotate = Angle::D90;
      } else if (angle == 180) {
        rotate = Angle::D180;
      } else if (angle == 270) {
        rotate = Angle::D270;
      }
    }
    return std::make_tuple(rotate, flip);
  }
  /*
    Calculate the (left, top) coordinates of the output image
    within the input image, applying the given gravity.
  */
  std::tuple<int, int>
  CalculateCrop(int const inWidth, int const inHeight, int const outWidth, int const outHeight, int const gravity) {
    int left = 0;
    int top = 0;
    switch (gravity) {
      case 1: // North
        left = (inWidth - outWidth + 1) / 2;
        break;
      case 2: // East
        left = inWidth - outWidth;
        top = (inHeight - outHeight + 1) / 2;
        break;
      case 3: // South
        left = (inWidth - outWidth + 1) / 2;
        top = inHeight - outHeight;
        break;
      case 4: // West
        top = (inHeight - outHeight + 1) / 2;
        break;
      default: // Centre
        left = (inWidth - outWidth + 1) / 2;
        top = (inHeight - outHeight + 1) / 2;
    }
    return std::make_tuple(left, top);
  }
  /*
    Copy then clear the error message.
    Unref all transitional images on the hook.
    Clear all thread-local data.
  */
  void Error(ResizeBaton *baton, VipsObject *hook) {
    // Get libvips' error message
    (baton->err).append(vips_error_buffer());
    // Clean up any dangling image references
    g_object_unref(hook);
    // Clean up libvips' per-request data and threads
    vips_error_clear();
    vips_thread_shutdown();
  }
 };
 /*
  resize(options, output, callback)
 */
 NAN_METHOD(resize) {
  NanScope();
  // V8 objects are converted to non-V8 types held in the baton struct
  ResizeBaton *baton = new ResizeBaton;
  Local<Object> options = args[0]->ToObject();
  // Input filename
  baton->fileIn = *String::Utf8Value(options->Get(NanNew<String>("fileIn"))->ToString());
  baton->accessMethod = options->Get(NanNew<String>("sequentialRead"))->BooleanValue() ? VIPS_ACCESS_SEQUENTIAL : VIPS_ACCESS_RANDOM;
  // Input Buffer object
  if (options->Get(NanNew<String>("bufferIn"))->IsObject()) {
    Local<Object> buffer = options->Get(NanNew<String>("bufferIn"))->ToObject();
    baton->bufferInLength = node::Buffer::Length(buffer);
    baton->bufferIn = node::Buffer::Data(buffer);
  }
  // ICC profile to use when input CMYK image has no embedded profile
  baton->iccProfileCmyk = *String::Utf8Value(options->Get(NanNew<String>("iccProfileCmyk"))->ToString());
  // Extract image options
  baton->topOffsetPre = options->Get(NanNew<String>("topOffsetPre"))->Int32Value();
  baton->leftOffsetPre = options->Get(NanNew<String>("leftOffsetPre"))->Int32Value();
  baton->widthPre = options->Get(NanNew<String>("widthPre"))->Int32Value();
  baton->heightPre = options->Get(NanNew<String>("heightPre"))->Int32Value();
  baton->topOffsetPost = options->Get(NanNew<String>("topOffsetPost"))->Int32Value();
  baton->leftOffsetPost = options->Get(NanNew<String>("leftOffsetPost"))->Int32Value();
  baton->widthPost = options->Get(NanNew<String>("widthPost"))->Int32Value();
  baton->heightPost = options->Get(NanNew<String>("heightPost"))->Int32Value();
  // Output image dimensions
  baton->width = options->Get(NanNew<String>("width"))->Int32Value();
  baton->height = options->Get(NanNew<String>("height"))->Int32Value();
  // Canvas option
  Local<String> canvas = options->Get(NanNew<String>("canvas"))->ToString();
  if (canvas->Equals(NanNew<String>("c"))) {
    baton->canvas = Canvas::CROP;
  } else if (canvas->Equals(NanNew<String>("m"))) {
    baton->canvas = Canvas::MAX;
  } else if (canvas->Equals(NanNew<String>("e"))) {
    baton->canvas = Canvas::EMBED;
  }
  // Background colour
  Local<Array> background = Local<Array>::Cast(options->Get(NanNew<String>("background")));
  for (int i = 0; i < 4; i++) {
    baton->background[i] = background->Get(i)->NumberValue();
  }
  // Resize options
  baton->withoutEnlargement = options->Get(NanNew<String>("withoutEnlargement"))->BooleanValue();
  baton->gravity = options->Get(NanNew<String>("gravity"))->Int32Value();
  baton->interpolator = *String::Utf8Value(options->Get(NanNew<String>("interpolator"))->ToString());
  // Operators
  baton->flatten = options->Get(NanNew<String>("flatten"))->BooleanValue();
  baton->blurRadius = options->Get(NanNew<String>("blurRadius"))->Int32Value();
  baton->sharpenRadius = options->Get(NanNew<String>("sharpenRadius"))->Int32Value();
  baton->sharpenFlat = options->Get(NanNew<String>("sharpenFlat"))->NumberValue();
  baton->sharpenJagged = options->Get(NanNew<String>("sharpenJagged"))->NumberValue();
  baton->gamma = options->Get(NanNew<String>("gamma"))->NumberValue();
  baton->greyscale = options->Get(NanNew<String>("greyscale"))->BooleanValue();
  baton->angle = options->Get(NanNew<String>("angle"))->Int32Value();
  baton->flip = options->Get(NanNew<String>("flip"))->BooleanValue();
  baton->flop = options->Get(NanNew<String>("flop"))->BooleanValue();
  // Output options
  baton->progressive = options->Get(NanNew<String>("progressive"))->BooleanValue();
  baton->quality = options->Get(NanNew<String>("quality"))->Int32Value();
  baton->compressionLevel = options->Get(NanNew<String>("compressionLevel"))->Int32Value();
  baton->withoutAdaptiveFiltering = options->Get(NanNew<String>("withoutAdaptiveFiltering"))->BooleanValue();
  baton->withMetadata = options->Get(NanNew<String>("withMetadata"))->BooleanValue();
  // Output filename or __format for Buffer
  baton->output = *String::Utf8Value(options->Get(NanNew<String>("output"))->ToString());
  // Join queue for worker thread
  NanCallback *callback = new NanCallback(args[1].As<v8::Function>());
  NanAsyncQueueWorker(new ResizeWorker(callback, baton));
  // Increment queued task counter
  g_atomic_int_inc(&counterQueue);
  NanReturnUndefined();
 }
--- a/src/resize.h
+++ b/src/resize.h
@@ -0,0 +1,8 @@
 #ifndef SHARP_RESIZE_H
 #define SHARP_RESIZE_H
 #include "nan.h"
 NAN_METHOD(resize);
 #endif
--- a/src/sharp.cc
+++ b/src/sharp.cc
--- a/src/utilities.cc
+++ b/src/utilities.cc
@@ -0,0 +1,75 @@
 #include <node.h>
 #include <vips/vips.h>
 #include "nan.h"
 #include "common.h"
 #include "utilities.h"
 using namespace v8;
 using namespace sharp;
 /*
  Get and set cache memory and item limits
 */
 NAN_METHOD(cache) {
  NanScope();
  // Set cache memory limit
  if (args[0]->IsInt32()) {
    int newMax = args[0]->Int32Value() * 1048576;
    int oldMax = vips_cache_get_max_mem();
    vips_cache_set_max_mem(newMax);
    // Notify the V8 garbage collector of delta in max cache size
    NanAdjustExternalMemory(newMax - oldMax);
  }
  // Set cache items limit
  if (args[1]->IsInt32()) {
    vips_cache_set_max(args[1]->Int32Value());
  }
  // Get cache statistics
  Local<Object> cache = NanNew<Object>();
  cache->Set(NanNew<String>("current"), NanNew<Number>(vips_tracked_get_mem() / 1048576));
  cache->Set(NanNew<String>("high"), NanNew<Number>(vips_tracked_get_mem_highwater() / 1048576));
  cache->Set(NanNew<String>("memory"), NanNew<Number>(vips_cache_get_max_mem() / 1048576));
  cache->Set(NanNew<String>("items"), NanNew<Number>(vips_cache_get_max()));
  NanReturnValue(cache);
 }
 /*
  Get and set size of thread pool
 */
 NAN_METHOD(concurrency) {
  NanScope();
  // Set concurrency
  if (args[0]->IsInt32()) {
    vips_concurrency_set(args[0]->Int32Value());
  }
  // Get concurrency
  NanReturnValue(NanNew<Number>(vips_concurrency_get()));
 }
 /*
  Get internal counters (queued tasks, processing tasks)
 */
 NAN_METHOD(counters) {
  NanScope();
  Local<Object> counters = NanNew<Object>();
  counters->Set(NanNew<String>("queue"), NanNew<Number>(counterQueue));
  counters->Set(NanNew<String>("process"), NanNew<Number>(counterProcess));
  NanReturnValue(counters);
 }
 /*
  Get libvips version
 */
 NAN_METHOD(libvipsVersion) {
  NanScope();
  char version[9];
  snprintf(version, 9, "%d.%d.%d", vips_version(0), vips_version(1), vips_version(2));
  NanReturnValue(NanNew<String>(version));
 }
--- a/src/utilities.h
+++ b/src/utilities.h
@@ -0,0 +1,11 @@
 #ifndef SHARP_UTILITIES_H
 #define SHARP_UTILITIES_H
 #include "nan.h"
 NAN_METHOD(cache);
 NAN_METHOD(concurrency);
 NAN_METHOD(counters);
 NAN_METHOD(libvipsVersion);
 #endif
--- a/test/bench/package.json
+++ b/test/bench/package.json
@@ -0,0 +1,22 @@
 {
  "name": "sharp-benchmark",
  "version": "0.0.1",
  "private": true,
  "author": "Lovell Fuller <npm@lovell.info>",
  "description": "Benchmark and performance tests for sharp",
  "scripts": {
    "test": "node perf && node random && node parallel"
  },
  "devDependencies": {
    "imagemagick": "^0.1.3",
    "imagemagick-native": "^1.5.0",
    "gm": "^1.17.0",
    "async": "^0.9.0",
    "semver": "^4.1.0",
    "benchmark": "^1.0.0"
  },
  "license": "Apache 2.0",
  "engines": {
    "node": ">=0.10"
  }
 }
--- a/test/bench/parallel.js
+++ b/test/bench/parallel.js
@@ -1,12 +1,11 @@
 /*jslint node: true */
 'use strict';
 var sharp = require('../index');
 var path = require('path');
 var assert = require('assert');
 var async = require('async');
-var inputJpg = path.join(__dirname, 'fixtures/2569067123_aca715a2ee_o.jpg'); // http://www.flickr.com/photos/grizdave/2569067123/
+var sharp = require('../../index');
 var fixtures = require('../fixtures');
 var width = 720;
 var height = 480;
@@ -21,7 +20,7 @@ async.mapSeries([1, 1, 2, 4, 8, 16, 32, 64, 128], function(parallelism, next) {
  async.times(parallelism,
    function(id, callback) {
      /*jslint unused: false */
-      sharp(inputJpg).resize(width, height).toBuffer(function(err, buffer) {
+      sharp(fixtures.inputJpg).resize(width, height).toBuffer(function(err, buffer) {
        buffer = null;
        callback(err, new Date().getTime() - start);
      });
--- a/test/bench/perf.js
+++ b/test/bench/perf.js
@@ -1,31 +1,18 @@
 /*jslint node: true */
 'use strict';
 var sharp = require('../index');
 var fs = require('fs');
-var path = require('path');
+
 var imagemagick = require('imagemagick');
 var imagemagickNative = require('imagemagick-native');
 var gm = require('gm');
 var async = require('async');
 var assert = require('assert');
 var Benchmark = require('benchmark');
 var semver = require('semver');
-var fixturesPath = path.join(__dirname, 'fixtures');
+var imagemagick = require('imagemagick');
 var imagemagickNative = require('imagemagick-native');
 var gm = require('gm');
 var sharp = require('../../index');
-var inputJpg = path.join(fixturesPath, '2569067123_aca715a2ee_o.jpg'); // http://www.flickr.com/photos/grizdave/2569067123/
+var fixtures = require('../fixtures');
 var outputJpg = path.join(fixturesPath, 'output.jpg');
 var inputPng = path.join(fixturesPath, '50020484-00001.png'); // http://c.searspartsdirect.com/lis_png/PLDM/50020484-00001.png
 var outputPng = path.join(fixturesPath, 'output.png');
 var inputWebp = path.join(fixturesPath, '4.webp'); // http://www.gstatic.com/webp/gallery/4.webp
 var outputWebp = path.join(fixturesPath, 'output.webp');
 var inputTiff = path.join(fixturesPath, 'G31D.TIF'); // http://www.fileformat.info/format/tiff/sample/e6c9a6e5253348f4aef6d17b534360ab/index.htm
 var outputTiff = path.join(fixturesPath, 'output.tiff');
 var inputGif = path.join(fixturesPath, 'Crash_test.gif'); // http://upload.wikimedia.org/wikipedia/commons/e/e3/Crash_test.gif
 var width = 720;
 var height = 480;
@@ -35,13 +22,13 @@ sharp.cache(0);
 async.series({
  jpeg: function(callback) {
-    var inputJpgBuffer = fs.readFileSync(inputJpg);
+    var inputJpgBuffer = fs.readFileSync(fixtures.inputJpg);
    (new Benchmark.Suite('jpeg')).add('imagemagick-file-file', {
      defer: true,
      fn: function(deferred) {
        imagemagick.resize({
-          srcPath: inputJpg,
+          srcPath: fixtures.inputJpg,
-          dstPath: outputJpg,
+          dstPath: fixtures.outputJpg,
          quality: 0.8,
          width: width,
          height: height
@@ -68,7 +55,7 @@ async.series({
    }).add('gm-buffer-file', {
      defer: true,
      fn: function(deferred) {
-        gm(inputJpgBuffer).resize(width, height).quality(80).write(outputJpg, function (err) {
+        gm(inputJpgBuffer).resize(width, height).quality(80).write(fixtures.outputJpg, function (err) {
          if (err) {
            throw err;
          } else {
@@ -91,7 +78,7 @@ async.series({
    }).add('gm-file-file', {
      defer: true,
      fn: function(deferred) {
-        gm(inputJpg).resize(width, height).quality(80).write(outputJpg, function (err) {
+        gm(fixtures.inputJpg).resize(width, height).quality(80).write(fixtures.outputJpg, function (err) {
          if (err) {
            throw err;
          } else {
@@ -102,7 +89,7 @@ async.series({
    }).add('gm-file-buffer', {
      defer: true,
      fn: function(deferred) {
-        gm(inputJpg).resize(width, height).quality(80).toBuffer(function (err, buffer) {
+        gm(fixtures.inputJpg).resize(width, height).quality(80).toBuffer(function (err, buffer) {
          if (err) {
            throw err;
          } else {
@@ -114,7 +101,7 @@ async.series({
    }).add('sharp-buffer-file', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputJpgBuffer).resize(width, height).toFile(outputJpg, function(err) {
+        sharp(inputJpgBuffer).resize(width, height).toFile(fixtures.outputJpg, function(err) {
          if (err) {
            throw err;
          } else {
@@ -137,7 +124,7 @@ async.series({
    }).add('sharp-file-file', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputJpg).resize(width, height).toFile(outputJpg, function(err) {
+        sharp(fixtures.inputJpg).resize(width, height).toFile(fixtures.outputJpg, function(err) {
          if (err) {
            throw err;
          } else {
@@ -148,8 +135,8 @@ async.series({
    }).add('sharp-stream-stream', {
      defer: true,
      fn: function(deferred) {
-        var readable = fs.createReadStream(inputJpg);
+        var readable = fs.createReadStream(fixtures.inputJpg);
-        var writable = fs.createWriteStream(outputJpg);
+        var writable = fs.createWriteStream(fixtures.outputJpg);
        writable.on('finish', function() {
          deferred.resolve();
        });
@@ -159,7 +146,7 @@ async.series({
    }).add('sharp-file-buffer', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputJpg).resize(width, height).toBuffer(function(err, buffer) {
+        sharp(fixtures.inputJpg).resize(width, height).toBuffer(function(err, buffer) {
          if (err) {
            throw err;
          } else {
@@ -168,18 +155,18 @@ async.series({
          }
        });
      }
-    }).add('sharp-file-buffer-promise', {
+    }).add('sharp-promise', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputJpg).resize(width, height).toBuffer().then(function(buffer) {
+        sharp(inputJpgBuffer).resize(width, height).toBuffer().then(function(buffer) {
          assert.notStrictEqual(null, buffer);
          deferred.resolve();
        });
      }
-    }).add('sharp-file-buffer-sharpen', {
+    }).add('sharp-sharpen-mild', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputJpg).resize(width, height).sharpen().toBuffer(function(err, buffer) {
+        sharp(inputJpgBuffer).resize(width, height).sharpen().toBuffer(function(err, buffer) {
          if (err) {
            throw err;
          } else {
@@ -188,10 +175,10 @@ async.series({
          }
        });
      }
-    }).add('sharp-file-buffer-nearest-neighbour', {
+    }).add('sharp-sharpen-radius', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputJpg).resize(width, height).interpolateWith(sharp.interpolator.nearest).toBuffer(function(err, buffer) {
+        sharp(inputJpgBuffer).resize(width, height).sharpen(3, 1, 3).toBuffer(function(err, buffer) {
          if (err) {
            throw err;
          } else {
@@ -200,10 +187,10 @@ async.series({
          }
        });
      }
-    }).add('sharp-file-buffer-bicubic', {
+    }).add('sharp-blur-mild', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputJpg).resize(width, height).interpolateWith(sharp.interpolator.bicubic).toBuffer(function(err, buffer) {
+        sharp(inputJpgBuffer).resize(width, height).blur().toBuffer(function(err, buffer) {
          if (err) {
            throw err;
          } else {
@@ -212,10 +199,10 @@ async.series({
          }
        });
      }
-    }).add('sharp-file-buffer-nohalo', {
+    }).add('sharp-blur-radius', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputJpg).resize(width, height).interpolateWith(sharp.interpolator.nohalo).toBuffer(function(err, buffer) {
+        sharp(inputJpgBuffer).resize(width, height).blur(3).toBuffer(function(err, buffer) {
          if (err) {
            throw err;
          } else {
@@ -224,10 +211,10 @@ async.series({
          }
        });
      }
-    }).add('sharp-file-buffer-locallyBoundedBicubic', {
+    }).add('sharp-nearest-neighbour', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputJpg).resize(width, height).interpolateWith(sharp.interpolator.locallyBoundedBicubic).toBuffer(function(err, buffer) {
+        sharp(inputJpgBuffer).resize(width, height).interpolateWith(sharp.interpolator.nearest).toBuffer(function(err, buffer) {
          if (err) {
            throw err;
          } else {
@@ -236,10 +223,10 @@ async.series({
          }
        });
      }
-    }).add('sharp-file-buffer-vertexSplitQuadraticBasisSpline', {
+    }).add('sharp-bicubic', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputJpg).resize(width, height).interpolateWith(sharp.interpolator.vertexSplitQuadraticBasisSpline).toBuffer(function(err, buffer) {
+        sharp(inputJpgBuffer).resize(width, height).interpolateWith(sharp.interpolator.bicubic).toBuffer(function(err, buffer) {
          if (err) {
            throw err;
          } else {
@@ -248,10 +235,10 @@ async.series({
          }
        });
      }
-    }).add('sharp-file-buffer-gamma', {
+    }).add('sharp-nohalo', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputJpg).resize(width, height).gamma().toBuffer(function(err, buffer) {
+        sharp(inputJpgBuffer).resize(width, height).interpolateWith(sharp.interpolator.nohalo).toBuffer(function(err, buffer) {
          if (err) {
            throw err;
          } else {
@@ -260,10 +247,10 @@ async.series({
          }
        });
      }
-    }).add('sharp-file-buffer-greyscale', {
+    }).add('sharp-locallyBoundedBicubic', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputJpg).resize(width, height).greyscale().toBuffer(function(err, buffer) {
+        sharp(inputJpgBuffer).resize(width, height).interpolateWith(sharp.interpolator.locallyBoundedBicubic).toBuffer(function(err, buffer) {
          if (err) {
            throw err;
          } else {
@@ -272,10 +259,10 @@ async.series({
          }
        });
      }
-    }).add('sharp-file-buffer-greyscale-gamma', {
+    }).add('sharp-vertexSplitQuadraticBasisSpline', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputJpg).resize(width, height).gamma().greyscale().toBuffer(function(err, buffer) {
+        sharp(inputJpgBuffer).resize(width, height).interpolateWith(sharp.interpolator.vertexSplitQuadraticBasisSpline).toBuffer(function(err, buffer) {
          if (err) {
            throw err;
          } else {
@@ -284,10 +271,10 @@ async.series({
          }
        });
      }
-    }).add('sharp-file-buffer-progressive', {
+    }).add('sharp-gamma', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputJpg).resize(width, height).progressive().toBuffer(function(err, buffer) {
+        sharp(inputJpgBuffer).resize(width, height).gamma().toBuffer(function(err, buffer) {
          if (err) {
            throw err;
          } else {
@@ -296,10 +283,10 @@ async.series({
          }
        });
      }
-    }).add('sharp-file-buffer-rotate', {
+    }).add('sharp-greyscale', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputJpg).rotate(90).resize(width, height).toBuffer(function(err, buffer) {
+        sharp(inputJpgBuffer).resize(width, height).greyscale().toBuffer(function(err, buffer) {
          if (err) {
            throw err;
          } else {
@@ -308,10 +295,46 @@ async.series({
          }
        });
      }
-    }).add('sharp-file-buffer-sequentialRead', {
+    }).add('sharp-greyscale-gamma', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputJpg).resize(width, height).sequentialRead().toBuffer(function(err, buffer) {
+        sharp(inputJpgBuffer).resize(width, height).gamma().greyscale().toBuffer(function(err, buffer) {
          if (err) {
            throw err;
          } else {
            assert.notStrictEqual(null, buffer);
            deferred.resolve();
          }
        });
      }
    }).add('sharp-progressive', {
      defer: true,
      fn: function(deferred) {
        sharp(inputJpgBuffer).resize(width, height).progressive().toBuffer(function(err, buffer) {
          if (err) {
            throw err;
          } else {
            assert.notStrictEqual(null, buffer);
            deferred.resolve();
          }
        });
      }
    }).add('sharp-rotate', {
      defer: true,
      fn: function(deferred) {
        sharp(inputJpgBuffer).rotate(90).resize(width, height).toBuffer(function(err, buffer) {
          if (err) {
            throw err;
          } else {
            assert.notStrictEqual(null, buffer);
            deferred.resolve();
          }
        });
      }
    }).add('sharp-sequentialRead', {
      defer: true,
      fn: function(deferred) {
        sharp(inputJpgBuffer).resize(width, height).sequentialRead().toBuffer(function(err, buffer) {
          if (err) {
            throw err;
          } else {
@@ -327,13 +350,14 @@ async.series({
    }).run();
  },
  png: function(callback) {
-    var inputPngBuffer = fs.readFileSync(inputPng);
+    var inputPngBuffer = fs.readFileSync(fixtures.inputPng);
-    (new Benchmark.Suite('png')).add('imagemagick-file-file', {
+    var pngSuite = new Benchmark.Suite('png');
    pngSuite.add('imagemagick-file-file', {
      defer: true,
      fn: function(deferred) {
        imagemagick.resize({
-          srcPath: inputPng,
+          srcPath: fixtures.inputPng,
-          dstPath: outputPng,
+          dstPath: fixtures.outputPng,
          width: width,
          height: height
        }, function(err) {
@@ -358,7 +382,7 @@ async.series({
    }).add('gm-file-file', {
      defer: true,
      fn: function(deferred) {
-        gm(inputPng).resize(width, height).write(outputPng, function (err) {
+        gm(fixtures.inputPng).resize(width, height).write(fixtures.outputPng, function (err) {
          if (err) {
            throw err;
          } else {
@@ -369,7 +393,7 @@ async.series({
    }).add('gm-file-buffer', {
      defer: true,
      fn: function(deferred) {
-        gm(inputPng).resize(width, height).quality(80).toBuffer(function (err, buffer) {
+        gm(fixtures.inputPng).resize(width, height).quality(80).toBuffer(function (err, buffer) {
          if (err) {
            throw err;
          } else {
@@ -381,7 +405,7 @@ async.series({
    }).add('sharp-buffer-file', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputPngBuffer).resize(width, height).toFile(outputPng, function(err) {
+        sharp(inputPngBuffer).resize(width, height).toFile(fixtures.outputPng, function(err) {
          if (err) {
            throw err;
          } else {
@@ -404,7 +428,7 @@ async.series({
    }).add('sharp-file-file', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputPng).resize(width, height).toFile(outputPng, function(err) {
+        sharp(fixtures.inputPng).resize(width, height).toFile(fixtures.outputPng, function(err) {
          if (err) {
            throw err;
          } else {
@@ -415,7 +439,7 @@ async.series({
    }).add('sharp-file-buffer', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputPng).resize(width, height).toBuffer(function(err, buffer) {
+        sharp(fixtures.inputPng).resize(width, height).toBuffer(function(err, buffer) {
          if (err) {
            throw err;
          } else {
@@ -424,10 +448,10 @@ async.series({
          }
        });
      }
-    }).add('sharp-file-buffer-sharpen', {
+    }).add('sharp-progressive', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputPng).resize(width, height).sharpen().toBuffer(function(err, buffer) {
+        sharp(inputPngBuffer).resize(width, height).progressive().toBuffer(function(err, buffer) {
          if (err) {
            throw err;
          } else {
@@ -436,10 +460,12 @@ async.series({
          }
        });
      }
-    }).add('sharp-file-buffer-progressive', {
+    });
    if (semver.gte(sharp.libvipsVersion(), '7.41.0')) {
      pngSuite.add('sharp-withoutAdaptiveFiltering', {
        defer: true,
        fn: function(deferred) {
-        sharp(inputPng).resize(width, height).progressive().toBuffer(function(err, buffer) {
+          sharp(inputPngBuffer).resize(width, height).withoutAdaptiveFiltering().toBuffer(function(err, buffer) {
            if (err) {
              throw err;
            } else {
@@ -448,18 +474,20 @@ async.series({
            }
          });
        }
-    }).on('cycle', function(event) {
+      });
    }
    pngSuite.on('cycle', function(event) {
      console.log(' png ' + String(event.target));
    }).on('complete', function() {
      callback(null, this.filter('fastest').pluck('name'));
    }).run();
  },
  webp: function(callback) {
-    var inputWebpBuffer = fs.readFileSync(inputWebp);
+    var inputWebPBuffer = fs.readFileSync(fixtures.inputWebP);
    (new Benchmark.Suite('webp')).add('sharp-buffer-file', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputWebpBuffer).resize(width, height).toFile(outputWebp, function(err) {
+        sharp(inputWebPBuffer).resize(width, height).toFile(fixtures.outputWebP, function(err) {
          if (err) {
            throw err;
          } else {
@@ -470,7 +498,7 @@ async.series({
    }).add('sharp-buffer-buffer', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputWebpBuffer).resize(width, height).toBuffer(function(err, buffer) {
+        sharp(inputWebPBuffer).resize(width, height).toBuffer(function(err, buffer) {
          if (err) {
            throw err;
          } else {
@@ -482,7 +510,7 @@ async.series({
    }).add('sharp-file-file', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputWebp).resize(width, height).toFile(outputWebp, function(err) {
+        sharp(fixtures.inputWebP).resize(width, height).toFile(fixtures.outputWebP, function(err) {
          if (err) {
            throw err;
          } else {
@@ -493,19 +521,7 @@ async.series({
    }).add('sharp-file-buffer', {
      defer: true,
      fn: function(deferred) {
-        sharp(inputWebp).resize(width, height).toBuffer(function(err, buffer) {
+        sharp(fixtures.inputWebp).resize(width, height).toBuffer(function(err, buffer) {
          if (err) {
            throw err;
          } else {
            assert.notStrictEqual(null, buffer);
            deferred.resolve();
          }
        });
      }
    }).add('sharp-file-buffer-sharpen', {
      defer: true,
      fn: function(deferred) {
        sharp(inputWebp).resize(width, height).sharpen().toBuffer(function(err, buffer) {
          if (err) {
            throw err;
          } else {
@@ -519,75 +535,6 @@ async.series({
    }).on('complete', function() {
      callback(null, this.filter('fastest').pluck('name'));
    }).run();
  },
  tiff: function(callback) {
    (new Benchmark.Suite('tiff')).add('sharp-file-file', {
      defer: true,
      fn: function(deferred) {
        sharp(inputTiff).resize(width, height).toFile(outputTiff, function(err) {
          if (err) {
            throw err;
          } else {
            deferred.resolve();
          }
        });
      }
    }).add('sharp-file-file-sharpen', {
      defer: true,
      fn: function(deferred) {
        sharp(inputTiff).resize(width, height).sharpen().toFile(outputTiff, function(err) {
          if (err) {
            throw err;
          } else {
            deferred.resolve();
          }
        });
      }
    }).on('cycle', function(event) {
      console.log('tiff ' + String(event.target));
    }).on('complete', function() {
      callback(null, this.filter('fastest').pluck('name'));
    }).run();
  },
  gif: function(callback) {
    (new Benchmark.Suite('gif')).add('sharp-file-file', {
      defer: true,
      fn: function(deferred) {
        sharp(inputGif).resize(width, height).toFile(outputTiff, function(err) {
          if (err) {
            throw err;
          } else {
            deferred.resolve();
          }
        });
      }
    }).add('sharp-file-file-sharpen', {
      defer: true,
      fn: function(deferred) {
        sharp(inputGif).resize(width, height).sharpen().toFile(outputTiff, function(err) {
          if (err) {
            throw err;
          } else {
            deferred.resolve();
          }
        });
      }
    }).add('sharp-file-file-sequentialRead', {
      defer: true,
      fn: function(deferred) {
        sharp(inputGif).sequentialRead().resize(width, height).toFile(outputTiff, function(err) {
          if (err) {
            throw err;
          } else {
            deferred.resolve();
          }
        });
      }
    }).on('cycle', function(event) {
      console.log('gif ' + String(event.target));
    }).on('complete', function() {
      callback(null, this.filter('fastest').pluck('name'));
    }).run();
  }
 }, function(err, results) {
  assert(!err, err);
--- a/test/bench/random.js
+++ b/test/bench/random.js
@@ -0,0 +1,65 @@
 'use strict';
 var imagemagick = require('imagemagick');
 var gm = require('gm');
 var assert = require('assert');
 var Benchmark = require('benchmark');
 var sharp = require('../../index');
 var fixtures = require('../fixtures');
 var min = 320;
 var max = 960;
 var randomDimension = function() {
  return Math.random() * (max - min) + min;
 };
 new Benchmark.Suite('random').add('imagemagick', {
  defer: true,
  fn: function(deferred) {
    imagemagick.resize({
      srcPath: fixtures.inputJpg,
      dstPath: fixtures.outputJpg,
      quality: 0.8,
      width: randomDimension(),
      height: randomDimension()
    }, function(err) {
      if (err) {
        throw err;
      } else {
        deferred.resolve();
      }
    });
  }
 }).add('gm', {
  defer: true,
  fn: function(deferred) {
    gm(fixtures.inputJpg).resize(randomDimension(), randomDimension()).quality(80).toBuffer(function (err, buffer) {
      if (err) {
        throw err;
      } else {
        assert.notStrictEqual(null, buffer);
        deferred.resolve();
      }
    });
  }
 }).add('sharp', {
  defer: true,
  fn: function(deferred) {
    sharp(fixtures.inputJpg).resize(randomDimension(), randomDimension()).toBuffer(function(err, buffer) {
      if (err) {
        throw err;
      } else {
        assert.notStrictEqual(null, buffer);
        deferred.resolve();
      }
    });
  }
 }).on('cycle', function(event) {
  console.log(String(event.target));
 }).on('complete', function() {
  var winner = this.filter('fastest').pluck('name');
  assert.strictEqual('sharp', String(winner), 'sharp was slower than ' + winner);
  console.dir(sharp.cache());
 }).run();
--- a/tests/fixtures/2569067123_aca715a2ee_o.jpg
+++ b/tests/fixtures/2569067123_aca715a2ee_o.jpg
--- a/tests/fixtures/4.webp
+++ b/tests/fixtures/4.webp
--- a/tests/fixtures/50020484-00001.png
+++ b/tests/fixtures/50020484-00001.png
--- a/tests/fixtures/Channel_digital_image_CMYK_color.jpg
+++ b/tests/fixtures/Channel_digital_image_CMYK_color.jpg
--- a/test/fixtures/Channel_digital_image_CMYK_color_no_profile.jpg
+++ b/test/fixtures/Channel_digital_image_CMYK_color_no_profile.jpg
--- a/tests/fixtures/Crash_test.gif
+++ b/tests/fixtures/Crash_test.gif
--- a/tests/fixtures/G31D.TIF
+++ b/tests/fixtures/G31D.TIF
--- a/test/fixtures/Landscape_5.jpg
+++ b/test/fixtures/Landscape_5.jpg
--- a/tests/fixtures/Landscape_8.jpg
+++ b/tests/fixtures/Landscape_8.jpg
--- a/tests/fixtures/blackbug.png
+++ b/tests/fixtures/blackbug.png
--- a/tests/fixtures/gamma_dalai_lama_gray.jpg
+++ b/tests/fixtures/gamma_dalai_lama_gray.jpg
--- a/test/fixtures/index.js
+++ b/test/fixtures/index.js
@@ -0,0 +1,32 @@
 'use strict';
 var path = require('path');
 var getPath = function(filename) {
  return path.join(__dirname, filename);
 };
 module.exports = {
  inputJpg: getPath('2569067123_aca715a2ee_o.jpg'), // http://www.flickr.com/photos/grizdave/2569067123/
  inputJpgWithExif: getPath('Landscape_8.jpg'), // https://github.com/recurser/exif-orientation-examples/blob/master/Landscape_8.jpg
  inputJpgWithExifMirroring: getPath('Landscape_5.jpg'), // https://github.com/recurser/exif-orientation-examples/blob/master/Landscape_5.jpg
  inputJpgWithGammaHoliness: getPath('gamma_dalai_lama_gray.jpg'), // http://www.4p8.com/eric.brasseur/gamma.html
  inputJpgWithCmykProfile: getPath('Channel_digital_image_CMYK_color.jpg'), // http://en.wikipedia.org/wiki/File:Channel_digital_image_CMYK_color.jpg
  inputJpgWithCmykNoProfile: getPath('Channel_digital_image_CMYK_color_no_profile.jpg'),
  inputPng: getPath('50020484-00001.png'), // http://c.searspartsdirect.com/lis_png/PLDM/50020484-00001.png
  inputPngWithTransparency: getPath('blackbug.png'), // public domain
  inputWebP: getPath('4.webp'), // http://www.gstatic.com/webp/gallery/4.webp
  inputTiff: getPath('G31D.TIF'), // http://www.fileformat.info/format/tiff/sample/e6c9a6e5253348f4aef6d17b534360ab/index.htm
  inputGif: getPath('Crash_test.gif'), // http://upload.wikimedia.org/wikipedia/commons/e/e3/Crash_test.gif
  outputJpg: getPath('output.jpg'),
  outputPng: getPath('output.png'),
  outputWebP: getPath('output.webp'),
  outputZoinks: getPath('output.zoinks'), // an 'unknown' file extension
  path: getPath // allows tests to write files to fixtures directory (for testing with human eyes)
 };
--- a/test/leak/leak.sh
+++ b/test/leak/leak.sh
@@ -3,5 +3,6 @@ if ! type valgrind >/dev/null; then
  exit 1
 fi
-curl -O https://raw.githubusercontent.com/jcupitt/libvips/master/libvips.supp
+curl -O https://raw.githubusercontent.com/jcupitt/libvips/master/libvips.supp test/leak/libvips.supp
-G_SLICE=always-malloc G_DEBUG=gc-friendly valgrind --suppressions=libvips.supp --suppressions=sharp.supp --leak-check=full --show-leak-kinds=definite,indirect,possible --num-callers=20 node unit.js
+cd ../../
 G_SLICE=always-malloc G_DEBUG=gc-friendly valgrind --suppressions=test/leak/libvips.supp --suppressions=test/leak/sharp.supp --leak-check=full --show-leak-kinds=definite,indirect,possible --num-callers=20 --trace-children=yes npm test
--- a/test/leak/sharp.supp
+++ b/test/leak/sharp.supp
--- a/test/unit/alpha.js
+++ b/test/unit/alpha.js
@@ -0,0 +1,64 @@
 'use strict';
 var assert = require('assert');
 var sharp = require('../../index');
 var fixtures = require('../fixtures');
 sharp.cache(0);
 describe('Alpha transparency', function() {
  it('Flatten to black', function(done) {
    sharp(fixtures.inputPngWithTransparency)
      .flatten()
      .resize(400, 300)
      .toFile(fixtures.path('output.flatten-black.jpg'), done);
  });
  it('Flatten to RGB orange', function(done) {
    sharp(fixtures.inputPngWithTransparency)
      .flatten()
      .background({r: 255, g: 102, b: 0})
      .resize(400, 300)
      .toFile(fixtures.path('output.flatten-rgb-orange.jpg'), done);
  });
  it('Flatten to CSS/hex orange', function(done) {
    sharp(fixtures.inputPngWithTransparency)
      .flatten()
      .background('#ff6600')
      .resize(400, 300)
      .toFile(fixtures.path('output.flatten-hex-orange.jpg'), done);
  });
  it('Do not flatten', function(done) {
    sharp(fixtures.inputPngWithTransparency)
      .flatten(false)
      .toBuffer(function(err, data) {
        if (err) throw err;
        sharp(data).metadata(function(err, metadata) {
          if (err) throw err;
          assert.strictEqual('png', metadata.format);
          assert.strictEqual(4, metadata.channels);
          done();
        });
      });
  });
  it('Ignored for JPEG', function(done) {
    sharp(fixtures.inputJpg)
      .background('#ff0000')
      .flatten()
      .toBuffer(function(err, data) {
        if (err) throw err;
        sharp(data).metadata(function(err, metadata) {
          if (err) throw err;
          assert.strictEqual('jpeg', metadata.format);
          assert.strictEqual(3, metadata.channels);
          done();
        });
      });
  });
 });
--- a/test/unit/blur.js
+++ b/test/unit/blur.js
@@ -0,0 +1,100 @@
 'use strict';
 var assert = require('assert');
 var sharp = require('../../index');
 var fixtures = require('../fixtures');
 sharp.cache(0);
 describe('Blur', function() {
  it('specific radius 1', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 240)
      .blur(1)
      .toFile(fixtures.path('output.blur-1.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        done();
      });
  });
  it('specific radius 10', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 240)
      .blur(10)
      .toFile(fixtures.path('output.blur-10.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        done();
      });
  });
  it('specific radius 100', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 240)
      .blur(100)
      .toFile(fixtures.path('output.blur-100.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        done();
      });
  });
  it('mild blur', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 240)
      .blur()
      .toFile(fixtures.path('output.blur-mild.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        done();
      });
  });
  it('invalid radius', function(done) {
    var isValid = true;
    try {
      sharp(fixtures.inputJpg).blur(1.5);
    } catch (err) {
      isValid = false;
    }
    assert.strictEqual(false, isValid);
    done();
  });
  it('blurred image is smaller than non-blurred', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 240)
      .blur(false)
      .toBuffer(function(err, notBlurred, info) {
        if (err) throw err;
        assert.strictEqual(true, notBlurred.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        sharp(fixtures.inputJpg)
          .resize(320, 240)
          .blur(true)
          .toBuffer(function(err, blurred, info) {
            if (err) throw err;
            assert.strictEqual(true, blurred.length > 0);
            assert.strictEqual(true, blurred.length < notBlurred.length);
            assert.strictEqual('jpeg', info.format);
            assert.strictEqual(320, info.width);
            assert.strictEqual(240, info.height);
            done();
          });
      });
  });
 });
--- a/test/unit/colourspace.js
+++ b/test/unit/colourspace.js
@@ -0,0 +1,83 @@
 'use strict';
 var assert = require('assert');
 var sharp = require('../../index');
 var fixtures = require('../fixtures');
 sharp.cache(0);
 describe('Colour space conversion', function() {
  it('To greyscale', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 240)
      .greyscale()
      .toFile(fixtures.path('output.greyscale-gamma-0.0.jpg'), done);
  });
  it('To greyscale with gamma correction', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 240)
      .gamma()
      .greyscale()
      .toFile(fixtures.path('output.greyscale-gamma-2.2.jpg'), done);
  });
  it('Not to greyscale', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 240)
      .greyscale(false)
      .toFile(fixtures.path('output.greyscale-not.jpg'), done);
  });
  it('From 1-bit TIFF to sRGB WebP [slow]', function(done) {
    sharp(fixtures.inputTiff)
      .webp()
      .toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('webp', info.format);
        done();
      });
  });
  it('From CMYK to sRGB', function(done) {
    sharp(fixtures.inputJpgWithCmykProfile)
      .resize(320)
      .toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        done();
      });
  });
  it('From CMYK to sRGB with white background, not yellow', function(done) {
    sharp(fixtures.inputJpgWithCmykProfile)
      .resize(320, 240)
      .background('white')
      .embed()
      .toFile(fixtures.path('output.cmyk2srgb.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        done();
      });
  });
  it('From profile-less CMYK to sRGB', function(done) {
    sharp(fixtures.inputJpgWithCmykNoProfile)
      .resize(320)
      .toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        done();
      });
  });
 });
--- a/test/unit/crop.js
+++ b/test/unit/crop.js
@@ -0,0 +1,95 @@
 'use strict';
 var assert = require('assert');
 var sharp = require('../../index');
 var fixtures = require('../fixtures');
 sharp.cache(0);
 describe('Crop gravities', function() {
  it('North', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 80)
      .crop(sharp.gravity.north)
      .toFile(fixtures.path('output.gravity-north.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual(320, info.width);
        assert.strictEqual(80, info.height);
        done();
      });
  });
  it('East', function(done) {
    sharp(fixtures.inputJpg)
      .resize(80, 320)
      .crop(sharp.gravity.east)
      .toFile(fixtures.path('output.gravity-east.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual(80, info.width);
        assert.strictEqual(320, info.height);
        done();
      });
  });
  it('South', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 80)
      .crop(sharp.gravity.south)
      .toFile(fixtures.path('output.gravity-south.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual(320, info.width);
        assert.strictEqual(80, info.height);
        done();
      });
  });
  it('West', function(done) {
    sharp(fixtures.inputJpg)
      .resize(80, 320)
      .crop(sharp.gravity.west)
      .toFile(fixtures.path('output.gravity-west.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual(80, info.width);
        assert.strictEqual(320, info.height);
        done();
      });
  });
  it('Center', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 80)
      .crop(sharp.gravity.center)
      .toFile(fixtures.path('output.gravity-center.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual(320, info.width);
        assert.strictEqual(80, info.height);
        done();
      });
  });
  it('Centre', function(done) {
    sharp(fixtures.inputJpg)
      .resize(80, 320)
      .crop(sharp.gravity.centre)
      .toFile(fixtures.path('output.gravity-centre.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual(80, info.width);
        assert.strictEqual(320, info.height);
        done();
      });
  });
  it('Invalid', function(done) {
    var isValid = true;
    try {
      sharp(fixtures.inputJpg).crop(5);
    } catch (err) {
      isValid = false;
    }
    assert.strictEqual(false, isValid);
    done();
  });
 });
--- a/test/unit/embed.js
+++ b/test/unit/embed.js
@@ -0,0 +1,51 @@
 'use strict';
 var assert = require('assert');
 var sharp = require('../../index');
 var fixtures = require('../fixtures');
 sharp.cache(0);
 describe('Embed', function() {
  it('JPEG within PNG, no alpha channel', function(done) {
    sharp(fixtures.inputJpg)
      .embed()
      .resize(320, 240)
      .png()
      .toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('png', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        sharp(data).metadata(function(err, metadata) {
          if (err) throw err;
          assert.strictEqual(3, metadata.channels);
          done();
        });
      });
  });
  it('JPEG within WebP, to include alpha channel', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 240)
      .background({r: 0, g: 0, b: 0, a: 0})
      .embed()
      .webp()
      .toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('webp', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        sharp(data).metadata(function(err, metadata) {
          if (err) throw err;
          assert.strictEqual(4, metadata.channels);
          done();
        });
      });
  });
 });
--- a/test/unit/extract.js
+++ b/test/unit/extract.js
@@ -0,0 +1,95 @@
 'use strict';
 var assert = require('assert');
 var sharp = require('../../index');
 var fixtures = require('../fixtures');
 sharp.cache(0);
 describe('Partial image extraction', function() {
  it('JPEG', function(done) {
    sharp(fixtures.inputJpg)
      .extract(2, 2, 20, 20)
      .toFile(fixtures.path('output.extract.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual(20, info.width);
        assert.strictEqual(20, info.height);
        done();
      });
  });
  it('PNG', function(done) {
    sharp(fixtures.inputPng)
      .extract(300, 200, 400, 200)
      .toFile(fixtures.path('output.extract.png'), function(err, info) {
        if (err) throw err;
        assert.strictEqual(400, info.width);
        assert.strictEqual(200, info.height);
        done();
      });
  });
  it('WebP', function(done) {
    sharp(fixtures.inputWebP)
      .extract(50, 100, 125, 200)
      .toFile(fixtures.path('output.extract.webp'), function(err, info) {
        if (err) throw err;
        assert.strictEqual(125, info.width);
        assert.strictEqual(200, info.height);
        done();
      });
  });
  it('TIFF', function(done) {
    sharp(fixtures.inputTiff)
      .extract(63, 34, 341, 529)
      .toFile(fixtures.path('output.extract.tiff'), function(err, info) {
        if (err) throw err;
        assert.strictEqual(341, info.width);
        assert.strictEqual(529, info.height);
        done();
      });
  });
  it('Before resize', function(done) {
    sharp(fixtures.inputJpg)
      .extract(10, 10, 10, 500, 500)
      .resize(100, 100)
      .toFile(fixtures.path('output.extract.resize.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual(100, info.width);
        assert.strictEqual(100, info.height);
        done();
      });
  });
  it('After resize and crop', function(done) {
    sharp(fixtures.inputJpg)
      .resize(500, 500)
      .crop(sharp.gravity.north)
      .extract(10, 10, 100, 100)
      .toFile(fixtures.path('output.resize.crop.extract.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual(100, info.width);
        assert.strictEqual(100, info.height);
        done();
      });
  });
  it('Before and after resize and crop', function(done) {
    sharp(fixtures.inputJpg)
      .extract(0, 0, 700, 700)
      .resize(500, 500)
      .crop(sharp.gravity.north)
      .extract(10, 10, 100, 100)
      .toFile(fixtures.path('output.extract.resize.crop.extract.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual(100, info.width);
        assert.strictEqual(100, info.height);
        done();
      });
  });
 });
--- a/test/unit/gamma.js
+++ b/test/unit/gamma.js
@@ -0,0 +1,43 @@
 'use strict';
 var assert = require('assert');
 var sharp = require('../../index');
 var fixtures = require('../fixtures');
 sharp.cache(0);
 describe('Gamma correction', function() {
  it('value of 0.0 (disabled)', function(done) {
    sharp(fixtures.inputJpgWithGammaHoliness)
      .resize(129, 111)
      .toFile(fixtures.path('output.gamma-0.0.jpg'), done);
  });
  it('value of 2.2 (default)', function(done) {
    sharp(fixtures.inputJpgWithGammaHoliness)
      .resize(129, 111)
      .gamma()
      .toFile(fixtures.path('output.gamma-2.2.jpg'), done);
  });
  it('value of 3.0', function(done) {
    sharp(fixtures.inputJpgWithGammaHoliness)
      .resize(129, 111)
      .gamma(3)
      .toFile(fixtures.path('output.gamma-3.0.jpg'), done);
  });
  it('invalid value', function(done) {
    var isValid = true;
    try {
      sharp(fixtures.inputJpgWithGammaHoliness).gamma(4);
    } catch (err) {
      isValid = false;
    }
    assert.strictEqual(false, isValid);
    done();
  });
 });
--- a/test/unit/interpolation.js
+++ b/test/unit/interpolation.js
@@ -0,0 +1,96 @@
 'use strict';
 var assert = require('assert');
 var sharp = require('../../index');
 var fixtures = require('../fixtures');
 sharp.cache(0);
 describe('Interpolation', function() {
  it('nearest neighbour', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 240)
      .interpolateWith(sharp.interpolator.nearest)
      .toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        done();
      });
  });
  it('bilinear', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 240)
      .interpolateWith(sharp.interpolator.bilinear)
      .toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        done();
      });
  });
  it('bicubic', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 240)
      .interpolateWith(sharp.interpolator.bicubic)
      .toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        done();
      });
  });
  it('nohalo', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 240)
      .interpolateWith(sharp.interpolator.nohalo)
      .toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        done();
      });
  });
  it('locally bounded bicubic (LBB)', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 240)
      .interpolateWith(sharp.interpolator.locallyBoundedBicubic)
      .toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        done();
      });
  });
  it('vertex split quadratic basis spline (VSQBS)', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 240)
      .interpolateWith(sharp.interpolator.vertexSplitQuadraticBasisSpline)
      .toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        done();
      });
  });
 });
--- a/test/unit/io.js
+++ b/test/unit/io.js
@@ -0,0 +1,420 @@
 'use strict';
 var fs = require('fs');
 var assert = require('assert');
 var semver = require('semver');
 var sharp = require('../../index');
 var fixtures = require('../fixtures');
 sharp.cache(0);
 describe('Input/output', function() {
  it('Read from File and write to Stream', function(done) {
    var writable = fs.createWriteStream(fixtures.outputJpg);
    writable.on('finish', function() {
      sharp(fixtures.outputJpg).toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        fs.unlinkSync(fixtures.outputJpg);
        done();
      });
    });
    sharp(fixtures.inputJpg).resize(320, 240).pipe(writable);
  });
  it('Read from Buffer and write to Stream', function(done) {
    var inputJpgBuffer = fs.readFileSync(fixtures.inputJpg);
    var writable = fs.createWriteStream(fixtures.outputJpg);
    writable.on('finish', function() {
      sharp(fixtures.outputJpg).toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        fs.unlinkSync(fixtures.outputJpg);
        done();
      });
    });
    sharp(inputJpgBuffer).resize(320, 240).pipe(writable);
  });
  it('Read from Stream and write to File', function(done) {
    var readable = fs.createReadStream(fixtures.inputJpg);
    var pipeline = sharp().resize(320, 240).toFile(fixtures.outputJpg, function(err, info) {
      if (err) throw err;
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(240, info.height);
      fs.unlinkSync(fixtures.outputJpg);
      done();
    });
    readable.pipe(pipeline);
  });
  it('Read from Stream and write to Buffer', function(done) {
    var readable = fs.createReadStream(fixtures.inputJpg);
    var pipeline = sharp().resize(320, 240).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(240, info.height);
      done();
    });
    readable.pipe(pipeline);
  });
  it('Read from Stream and write to Buffer via Promise', function(done) {
    var readable = fs.createReadStream(fixtures.inputJpg);
    var pipeline = sharp().resize(1, 1);
    pipeline.toBuffer().then(function(data) {
      assert.strictEqual(true, data.length > 0);
      done();
    }).catch(function(err) {
      throw err;
    });
    readable.pipe(pipeline);
  });
  it('Read from Stream and write to Stream', function(done) {
    var readable = fs.createReadStream(fixtures.inputJpg);
    var writable = fs.createWriteStream(fixtures.outputJpg);
    writable.on('finish', function() {
      sharp(fixtures.outputJpg).toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        fs.unlinkSync(fixtures.outputJpg);
        done();
      });
    });
    var pipeline = sharp().resize(320, 240);
    readable.pipe(pipeline).pipe(writable);
  });
  it('Handle Stream to Stream error ', function(done) {
    var pipeline = sharp().resize(320, 240);
    var anErrorWasEmitted = false;
    pipeline.on('error', function(err) {
      anErrorWasEmitted = !!err;
    }).on('end', function() {
      assert(anErrorWasEmitted);
      fs.unlinkSync(fixtures.outputJpg);
      done();
    });
    var readableButNotAnImage = fs.createReadStream(__filename);
    var writable = fs.createWriteStream(fixtures.outputJpg);
    readableButNotAnImage.pipe(pipeline).pipe(writable);
  });
  it('Handle File to Stream error', function(done) {
    var readableButNotAnImage = sharp(__filename).resize(320, 240);
    var anErrorWasEmitted = false;
    readableButNotAnImage.on('error', function(err) {
      anErrorWasEmitted = !!err;
    }).on('end', function() {
      assert(anErrorWasEmitted);
      fs.unlinkSync(fixtures.outputJpg);
      done();
    });
    var writable = fs.createWriteStream(fixtures.outputJpg);
    readableButNotAnImage.pipe(writable);
  });
  it('Sequential read', function(done) {
    sharp(fixtures.inputJpg)
      .sequentialRead()
      .resize(320, 240)
      .toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        done();
      });
  });
  it('Not sequential read', function(done) {
    sharp(fixtures.inputJpg)
      .sequentialRead(false)
      .resize(320, 240)
      .toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        done();
      });
  });
  it('Fail when output File is input File', function(done) {
    sharp(fixtures.inputJpg).toFile(fixtures.inputJpg, function(err) {
      assert(!!err);
      done();
    });
  });
  it('Fail when output File is input File via Promise', function(done) {
    sharp(fixtures.inputJpg).toFile(fixtures.inputJpg).then(function(data) {
      assert(false);
      done();
    }).catch(function(err) {
      assert(!!err);
      done();
    });
  });
  it('Fail when output File is empty', function(done) {
    sharp(fixtures.inputJpg).toFile('', function(err) {
      assert(!!err);
      done();
    });
  });
  it('Fail when output File is empty via Promise', function(done) {
    sharp(fixtures.inputJpg).toFile('').then(function(data) {
      assert(false);
      done();
    }).catch(function(err) {
      assert(!!err);
      done();
    });
  });
  it('Fail when input is empty Buffer', function(done) {
    var failed = true;
    try {
      sharp(new Buffer(0));
      failed = false;
    } catch (err) {
      assert(err instanceof Error);
    }
    assert(failed);
    done();
  });
  it('Fail when input is invalid Buffer', function(done) {
    var failed = true;
    try {
      sharp(new Buffer([0x1, 0x2, 0x3, 0x4]));
      failed = false;
    } catch (err) {
      assert(err instanceof Error);
    }
    assert(failed);
    done();
  });
  it('Promises/A+', function(done) {
    sharp(fixtures.inputJpg).resize(320, 240).toBuffer().then(function(data) {
      sharp(data).toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        done();
      });
    }).catch(function(err) {
      throw err;
    });
  });
  it('JPEG quality', function(done) {
    sharp(fixtures.inputJpg).resize(320, 240).quality(70).toBuffer(function(err, buffer70) {
      if (err) throw err;
      sharp(fixtures.inputJpg).resize(320, 240).toBuffer(function(err, buffer80) {
        if (err) throw err;
        sharp(fixtures.inputJpg).resize(320, 240).quality(90).toBuffer(function(err, buffer90) {
          if (err) throw err;
          assert(buffer70.length < buffer80.length);
          assert(buffer80.length < buffer90.length);
          done();
        });
      });
    });
  });
  it('Invalid quality', function(done) {
    var isValid = true;
    try {
      sharp(fixtures.inputJpg).quality(-1);
    } catch (err) {
      isValid = false;
    }
    assert.strictEqual(false, isValid);
    done();
  });
  it('Progressive image', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 240)
      .png()
      .progressive(false)
      .toBuffer(function(err, nonProgressive, info) {
        if (err) throw err;
        assert.strictEqual(true, nonProgressive.length > 0);
        assert.strictEqual('png', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        sharp(nonProgressive)
          .progressive()
          .toBuffer(function(err, progressive, info) {
            if (err) throw err;
            assert.strictEqual(true, progressive.length > 0);
            assert.strictEqual(true, progressive.length > nonProgressive.length);
            assert.strictEqual('png', info.format);
            assert.strictEqual(320, info.width);
            assert.strictEqual(240, info.height);
            done();
          });
      });
  });
  describe('Output filename without extension uses input format', function() {
    it('JPEG', function(done) {
      sharp(fixtures.inputJpg).resize(320, 80).toFile(fixtures.outputZoinks, function(err, info) {
        if (err) throw err;
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(80, info.height);
        fs.unlinkSync(fixtures.outputZoinks);
        done();
      });
    });
    it('PNG', function(done) {
      sharp(fixtures.inputPng).resize(320, 80).toFile(fixtures.outputZoinks, function(err, info) {
        if (err) throw err;
        assert.strictEqual('png', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(80, info.height);
        fs.unlinkSync(fixtures.outputZoinks);
        done();
      });
    });
    it('Transparent PNG', function(done) {
      sharp(fixtures.inputPngWithTransparency).resize(320, 80).toFile(fixtures.outputZoinks, function(err, info) {
        if (err) throw err;
        assert.strictEqual('png', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(80, info.height);
        done();
      });
    });
    it('WebP', function(done) {
      sharp(fixtures.inputWebP).resize(320, 80).toFile(fixtures.outputZoinks, function(err, info) {
        if (err) throw err;
        assert.strictEqual('webp', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(80, info.height);
        fs.unlinkSync(fixtures.outputZoinks);
        done();
      });
    });
    it('TIFF', function(done) {
      sharp(fixtures.inputTiff).resize(320, 80).toFile(fixtures.outputZoinks, function(err, info) {
        if (err) throw err;
        assert.strictEqual('tiff', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(80, info.height);
        fs.unlinkSync(fixtures.outputZoinks);
        done();
      });
    });
    it('Fail with GIF', function(done) {
      sharp(fixtures.inputGif).resize(320, 80).toFile(fixtures.outputZoinks, function(err) {
        assert(!!err);
        done();
      });
    });
  });
  describe('PNG output', function() {
    it('compression level is valid', function(done) {
      var isValid = false;
      try {
        sharp().compressionLevel(0);
        isValid = true;
      } catch (e) {}
      assert(isValid);
      done();
    });
    it('compression level is invalid', function(done) {
      var isValid = false;
      try {
        sharp().compressionLevel(-1);
        isValid = true;
      } catch (e) {}
      assert(!isValid);
      done();
    });
    if (semver.gte(sharp.libvipsVersion(), '7.41.0')) {
      it('withoutAdaptiveFiltering generates smaller file [libvips 7.41.0+]', function(done) {
        // First generate with adaptive filtering
        sharp(fixtures.inputPng)
          .resize(320, 240)
          .withoutAdaptiveFiltering(false)
          .toBuffer(function(err, dataAdaptive, info) {
            if (err) throw err;
            assert.strictEqual(true, dataAdaptive.length > 0);
            assert.strictEqual('png', info.format);
            assert.strictEqual(320, info.width);
            assert.strictEqual(240, info.height);
            // Then generate without
            sharp(fixtures.inputPng)
              .resize(320, 240)
              .withoutAdaptiveFiltering()
              .toBuffer(function(err, dataWithoutAdaptive, info) {
                if (err) throw err;
                assert.strictEqual(true, dataWithoutAdaptive.length > 0);
                assert.strictEqual('png', info.format);
                assert.strictEqual(320, info.width);
                assert.strictEqual(240, info.height);
                assert.strictEqual(true, dataWithoutAdaptive.length < dataAdaptive.length);
                done();
              });
          });
      });
    }
  });
  if (semver.gte(sharp.libvipsVersion(), '7.40.0')) {
    it('Load TIFF from Buffer [libvips 7.40.0+]', function(done) {
      var inputTiffBuffer = fs.readFileSync(fixtures.inputTiff);
      sharp(inputTiffBuffer)
        .resize(320, 240)
        .jpeg()
        .toBuffer(function(err, data, info) {
          if (err) throw err;
          assert.strictEqual(true, data.length > 0);
          assert.strictEqual('jpeg', info.format);
          assert.strictEqual(320, info.width);
          assert.strictEqual(240, info.height);
          done();
        });
    });
  }
 });
--- a/test/unit/jshint.js
+++ b/test/unit/jshint.js
@@ -0,0 +1 @@
 require('mocha-jshint')();
--- a/test/unit/metadata.js
+++ b/test/unit/metadata.js
@@ -0,0 +1,190 @@
 'use strict';
 var fs = require('fs');
 var assert = require('assert');
 var sharp = require('../../index');
 var fixtures = require('../fixtures');
 sharp.cache(0);
 describe('Image metadata', function() {
  it('JPEG', function(done) {
    sharp(fixtures.inputJpg).metadata(function(err, metadata) {
      if (err) throw err;
      assert.strictEqual('jpeg', metadata.format);
      assert.strictEqual(2725, metadata.width);
      assert.strictEqual(2225, metadata.height);
      assert.strictEqual('srgb', metadata.space);
      assert.strictEqual(3, metadata.channels);
      assert.strictEqual('undefined', typeof metadata.orientation);
      done();
    });
  });
  it('JPEG with EXIF', function(done) {
    sharp(fixtures.inputJpgWithExif).metadata(function(err, metadata) {
      if (err) throw err;
      assert.strictEqual('jpeg', metadata.format);
      assert.strictEqual(450, metadata.width);
      assert.strictEqual(600, metadata.height);
      assert.strictEqual('srgb', metadata.space);
      assert.strictEqual(3, metadata.channels);
      assert.strictEqual(false, metadata.hasAlpha);
      assert.strictEqual(8, metadata.orientation);
      done();
    });
  });
  it('TIFF', function(done) {
    sharp(fixtures.inputTiff).metadata(function(err, metadata) {
      if (err) throw err;
      assert.strictEqual('tiff', metadata.format);
      assert.strictEqual(2464, metadata.width);
      assert.strictEqual(3248, metadata.height);
      assert.strictEqual('b-w', metadata.space);
      assert.strictEqual(1, metadata.channels);
      assert.strictEqual(false, metadata.hasAlpha);
      done();
    });
  });
  it('PNG', function(done) {
    sharp(fixtures.inputPng).metadata(function(err, metadata) {
      if (err) throw err;
      assert.strictEqual('png', metadata.format);
      assert.strictEqual(2809, metadata.width);
      assert.strictEqual(2074, metadata.height);
      assert.strictEqual('b-w', metadata.space);
      assert.strictEqual(1, metadata.channels);
      assert.strictEqual(false, metadata.hasAlpha);
      done();
    });
  });
  it('Transparent PNG', function(done) {
    sharp(fixtures.inputPngWithTransparency).metadata(function(err, metadata) {
      if (err) throw err;
      assert.strictEqual('png', metadata.format);
      assert.strictEqual(2048, metadata.width);
      assert.strictEqual(1536, metadata.height);
      assert.strictEqual('srgb', metadata.space);
      assert.strictEqual(4, metadata.channels);
      assert.strictEqual(true, metadata.hasAlpha);
      done();
    });
  });
  it('WebP', function(done) {
    sharp(fixtures.inputWebP).metadata(function(err, metadata) {
      if (err) throw err;
      assert.strictEqual('webp', metadata.format);
      assert.strictEqual(1024, metadata.width);
      assert.strictEqual(772, metadata.height);
      assert.strictEqual('srgb', metadata.space);
      assert.strictEqual(3, metadata.channels);
      assert.strictEqual(false, metadata.hasAlpha);
      done();
    });
  });
  it('GIF via libmagick', function(done) {
    sharp(fixtures.inputGif).metadata(function(err, metadata) {
      if (err) throw err;
      assert.strictEqual('magick', metadata.format);
      assert.strictEqual(800, metadata.width);
      assert.strictEqual(533, metadata.height);
      assert.strictEqual(3, metadata.channels);
      assert.strictEqual(false, metadata.hasAlpha);
      done();
    });
  });
  it('File in, Promise out', function(done) {
    sharp(fixtures.inputJpg).metadata().then(function(metadata) {
      assert.strictEqual('jpeg', metadata.format);
      assert.strictEqual(2725, metadata.width);
      assert.strictEqual(2225, metadata.height);
      assert.strictEqual('srgb', metadata.space);
      assert.strictEqual(3, metadata.channels);
      assert.strictEqual(false, metadata.hasAlpha);
      done();
    });
  });
  it('Stream in, Promise out', function(done) {
    var readable = fs.createReadStream(fixtures.inputJpg);
    var pipeline = sharp();
    pipeline.metadata().then(function(metadata) {
      assert.strictEqual('jpeg', metadata.format);
      assert.strictEqual(2725, metadata.width);
      assert.strictEqual(2225, metadata.height);
      assert.strictEqual('srgb', metadata.space);
      assert.strictEqual(3, metadata.channels);
      assert.strictEqual(false, metadata.hasAlpha);
      done();
    }).catch(function(err) {
      throw err;
    });
    readable.pipe(pipeline);
  });
  it('Stream', function(done) {
    var readable = fs.createReadStream(fixtures.inputJpg);
    var pipeline = sharp().metadata(function(err, metadata) {
      if (err) throw err;
      assert.strictEqual('jpeg', metadata.format);
      assert.strictEqual(2725, metadata.width);
      assert.strictEqual(2225, metadata.height);
      assert.strictEqual('srgb', metadata.space);
      assert.strictEqual(3, metadata.channels);
      assert.strictEqual(false, metadata.hasAlpha);
      done();
    });
    readable.pipe(pipeline);
  });
  it('Resize to half width using metadata', function(done) {
    var image = sharp(fixtures.inputJpg);
    image.metadata(function(err, metadata) {
      if (err) throw err;
      assert.strictEqual('jpeg', metadata.format);
      assert.strictEqual(2725, metadata.width);
      assert.strictEqual(2225, metadata.height);
      assert.strictEqual('srgb', metadata.space);
      assert.strictEqual(3, metadata.channels);
      assert.strictEqual(false, metadata.hasAlpha);
      image.resize(metadata.width / 2).toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual(1362, info.width);
        assert.strictEqual(1112, info.height);
        done();
      });
    });
  });
  it('Keep EXIF metadata after a resize', function(done) {
    sharp(fixtures.inputJpgWithExif).resize(320, 240).withMetadata().toBuffer(function(err, buffer) {
      if (err) throw err;
      sharp(buffer).metadata(function(err, metadata) {
        if (err) throw err;
        assert.strictEqual(8, metadata.orientation);
        done();
      });
    });
  });
  it('Remove EXIF metadata after a resize', function(done) {
    sharp(fixtures.inputJpgWithExif).resize(320, 240).withMetadata(false).toBuffer(function(err, buffer) {
      if (err) throw err;
      sharp(buffer).metadata(function(err, metadata) {
        if (err) throw err;
        assert.strictEqual('undefined', typeof metadata.orientation);
        done();
      });
    });
  });
 });
--- a/test/unit/resize.js
+++ b/test/unit/resize.js
@@ -0,0 +1,186 @@
 'use strict';
 var assert = require('assert');
 var sharp = require('../../index');
 var fixtures = require('../fixtures');
 sharp.cache(0);
 describe('Resize dimensions', function() {
  it('Exact crop', function(done) {
    sharp(fixtures.inputJpg).resize(320, 240).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(240, info.height);
      done();
    });
  });
  it('Fixed width', function(done) {
    sharp(fixtures.inputJpg).resize(320).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(261, info.height);
      done();
    });
  });
  it('Fixed height', function(done) {
    sharp(fixtures.inputJpg).resize(null, 320).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(391, info.width);
      assert.strictEqual(320, info.height);
      done();
    });
  });
  it('Identity transform', function(done) {
    sharp(fixtures.inputJpg).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(2725, info.width);
      assert.strictEqual(2225, info.height);
      done();
    });
  });
  it('Upscale', function(done) {
    sharp(fixtures.inputJpg).resize(3000).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(3000, info.width);
      assert.strictEqual(2449, info.height);
      done();
    });
  });
  it('Invalid width', function(done) {
    var isValid = true;
    try {
      sharp(fixtures.inputJpg).resize('spoons', 240);
    } catch (err) {
      isValid = false;
    }
    assert.strictEqual(false, isValid);
    done();
  });
  it('Invalid height', function(done) {
    var isValid = true;
    try {
      sharp(fixtures.inputJpg).resize(320, 'spoons');
    } catch (err) {
      isValid = false;
    }
    assert.strictEqual(false, isValid);
    done();
  });
  it('TIFF embed known to cause rounding errors', function(done) {
    sharp(fixtures.inputTiff).resize(240, 320).embed().jpeg().toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(240, info.width);
      assert.strictEqual(320, info.height);
      done();
    });
  });
  it('TIFF known to cause rounding errors', function(done) {
    sharp(fixtures.inputTiff).resize(240, 320).jpeg().toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(240, info.width);
      assert.strictEqual(320, info.height);
      done();
    });
  });
  it('Max width or height considering ratio (landscape)', function(done) {
    sharp(fixtures.inputJpg).resize(320, 320).max().toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(261, info.height);
      done();
    });
  });
  it('Max width or height considering ratio (portrait)', function(done) {
    sharp(fixtures.inputTiff).resize(320, 320).max().jpeg().toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(243, info.width);
      assert.strictEqual(320, info.height);
      done();
    });
  });
  it('Provide only one dimension with max, should default to crop', function(done) {
    sharp(fixtures.inputJpg).resize(320).max().toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(261, info.height);
      done();
    });
  });
  it('Do not enlarge when input width is already less than output width', function(done) {
    sharp(fixtures.inputJpg)
      .resize(2800)
      .withoutEnlargement()
      .toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(2725, info.width);
        assert.strictEqual(2225, info.height);
        done();
      });
  });
  it('Do not enlarge when input height is already less than output height', function(done) {
    sharp(fixtures.inputJpg)
      .resize(null, 2300)
      .withoutEnlargement()
      .toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(2725, info.width);
        assert.strictEqual(2225, info.height);
        done();
      });
  });
  it('Do enlarge when input width is less than output width', function(done) {
    sharp(fixtures.inputJpg)
      .resize(2800)
      .withoutEnlargement(false)
      .toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(2800, info.width);
        assert.strictEqual(2286, info.height);
        done();
      });
  });
 });
--- a/test/unit/rotate.js
+++ b/test/unit/rotate.js
@@ -0,0 +1,151 @@
 'use strict';
 var assert = require('assert');
 var sharp = require('../../index');
 var fixtures = require('../fixtures');
 sharp.cache(0);
 describe('Rotation', function() {
  it('Rotate by 90 degrees, respecting output input size', function(done) {
    sharp(fixtures.inputJpg).rotate(90).resize(320, 240).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(240, info.height);
      done();
    });
  });
  it('Input image has Orientation EXIF tag but do not rotate output', function(done) {
    sharp(fixtures.inputJpgWithExif)
      .resize(320)
      .toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(426, info.height);
        done();
      });
  });
  it('Input image has Orientation EXIF tag value of 8 (270 degrees), auto-rotate', function(done) {
    sharp(fixtures.inputJpgWithExif)
      .rotate()
      .resize(320)
      .toFile(fixtures.path('output.exif.8.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        done();
      });
  });
  it('Input image has Orientation EXIF tag value of 5 (270 degrees + flip), auto-rotate', function(done) {
    sharp(fixtures.inputJpgWithExifMirroring)
      .rotate()
      .resize(320)
      .toFile(fixtures.path('output.exif.5.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        done();
      });
  });
  it('Attempt to auto-rotate using image that has no EXIF', function(done) {
    sharp(fixtures.inputJpg).rotate().resize(320).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(261, info.height);
      done();
    });
  });
  it('Attempt to auto-rotate image format without EXIF support', function(done) {
    sharp(fixtures.inputGif)
      .rotate()
      .resize(320)
      .jpeg()
      .toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(213, info.height);
        done();
      });
  });
  it('Rotate to an invalid angle, should fail', function(done) {
    var fail = false;
    try {
      sharp(fixtures.inputJpg).rotate(1);
      fail = true;
    } catch (e) {}
    assert(!fail);
    done();
  });
  it('Flip - vertical', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320)
      .flip()
      .toFile(fixtures.path('output.flip.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(261, info.height);
        done();
      });
  });
  it('Flop - horizontal', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320)
      .flop()
      .toFile(fixtures.path('output.flop.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(261, info.height);
        done();
      });
  });
  it('Flip and flop', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320)
      .flop()
      .toFile(fixtures.path('output.flip.flop.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(261, info.height);
        done();
      });
  });
  it('Neither flip nor flop', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320)
      .flip(false)
      .flop(false)
      .toFile(fixtures.path('output.flip.flop.nope.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(261, info.height);
        done();
      });
  });
 });
--- a/test/unit/sharpen.js
+++ b/test/unit/sharpen.js
@@ -0,0 +1,122 @@
 'use strict';
 var assert = require('assert');
 var sharp = require('../../index');
 var fixtures = require('../fixtures');
 sharp.cache(0);
 describe('Sharpen', function() {
  it('specific radius 10', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 240)
      .sharpen(10)
      .toFile(fixtures.path('output.sharpen-10.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        done();
      });
  });
  it('specific radius 3 and levels 0.5, 2.5', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 240)
      .sharpen(3, 0.5, 2.5)
      .toFile(fixtures.path('output.sharpen-3-0.5-2.5.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        done();
      });
  });
  it('specific radius 5 and levels 2, 4', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 240)
      .sharpen(5, 2, 4)
      .toFile(fixtures.path('output.sharpen-5-2-4.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        done();
      });
  });
  it('mild sharpen', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 240)
      .sharpen()
      .toFile(fixtures.path('output.sharpen-mild.jpg'), function(err, info) {
        if (err) throw err;
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        done();
      });
  });
  it('invalid radius', function(done) {
    var isValid = true;
    try {
      sharp(fixtures.inputJpg).sharpen(1.5);
    } catch (err) {
      isValid = false;
    }
    assert.strictEqual(false, isValid);
    done();
  });
  it('invalid flat', function(done) {
    var isValid = true;
    try {
      sharp(fixtures.inputJpg).sharpen(1, -1);
    } catch (err) {
      isValid = false;
    }
    assert.strictEqual(false, isValid);
    done();
  });
  it('invalid jagged', function(done) {
    var isValid = true;
    try {
      sharp(fixtures.inputJpg).sharpen(1, 1, -1);
    } catch (err) {
      isValid = false;
    }
    assert.strictEqual(false, isValid);
    done();
  });
  it('sharpened image is larger than non-sharpened', function(done) {
    sharp(fixtures.inputJpg)
      .resize(320, 240)
      .sharpen(false)
      .toBuffer(function(err, notSharpened, info) {
        if (err) throw err;
        assert.strictEqual(true, notSharpened.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        sharp(fixtures.inputJpg)
          .resize(320, 240)
          .sharpen(true)
          .toBuffer(function(err, sharpened, info) {
            if (err) throw err;
            assert.strictEqual(true, sharpened.length > 0);
            assert.strictEqual(true, sharpened.length > notSharpened.length);
            assert.strictEqual('jpeg', info.format);
            assert.strictEqual(320, info.width);
            assert.strictEqual(240, info.height);
            done();
          });
      });
  });
 });
--- a/test/unit/util.js
+++ b/test/unit/util.js
@@ -0,0 +1,53 @@
 'use strict';
 var assert = require('assert');
 var sharp = require('../../index');
 var defaultConcurrency = sharp.concurrency();
 describe('Utilities', function() {
  describe('Cache', function() {
    it('Can be disabled', function() {
      var cache = sharp.cache(0, 0);
      assert.strictEqual(0, cache.memory);
      assert.strictEqual(0, cache.items);
    });
    it('Can be set to a maximum of 50MB and 500 items', function() {
      var cache = sharp.cache(50, 500);
      assert.strictEqual(50, cache.memory);
      assert.strictEqual(500, cache.items);
    });
    it('Ignores invalid values', function() {
      sharp.cache(50, 500);
      var cache = sharp.cache('spoons');
      assert.strictEqual(50, cache.memory);
      assert.strictEqual(500, cache.items);
    });
  });
  describe('Concurrency', function() {
    it('Can be set to use 16 threads', function() {
      sharp.concurrency(16);
      assert.strictEqual(16, sharp.concurrency());
    });
    it('Can be reset to default', function() {
      sharp.concurrency(0);
      assert.strictEqual(defaultConcurrency, sharp.concurrency());
    });
    it('Ignores invalid values', function() {
      sharp.concurrency(0);
      sharp.concurrency('spoons');
      assert.strictEqual(defaultConcurrency, sharp.concurrency());
    });
  });
  describe('Counters', function() {
    it('Have zero value at rest', function() {
      var counters = sharp.counters();
      assert.strictEqual(0, counters.queue);
      assert.strictEqual(0, counters.process);
    });
  });
 });
--- a/tests/random.js
+++ b/tests/random.js
@@ -1,69 +0,0 @@
 /*jslint node: true */
 'use strict';
 var sharp = require('../index');
 var path = require('path');
 var imagemagick = require('imagemagick');
 var gm = require('gm');
 var assert = require('assert');
 var Benchmark = require('benchmark');
 var fixturesPath = path.join(__dirname, 'fixtures');
 var inputJpg = path.join(fixturesPath, '2569067123_aca715a2ee_o.jpg'); // http://www.flickr.com/photos/grizdave/2569067123/
 var outputJpg = path.join(fixturesPath, 'output.jpg');
 var min = 320;
 var max = 960;
 var randomDimension = function() {
  return Math.random() * (max - min) + min;
 };
 new Benchmark.Suite('random').add('imagemagick', {
 	defer: true,
 	fn: function(deferred) {
 		imagemagick.resize({
 			srcPath: inputJpg,
 			dstPath: outputJpg,
 			quality: 0.8,
 			width: randomDimension(),
 			height: randomDimension()
 		}, function(err) {
 			if (err) {
 				throw err;
 			} else {
 				deferred.resolve();
 			}
 		});
 	}
 }).add('gm', {
 	defer: true,
 	fn: function(deferred) {
 		gm(inputJpg).resize(randomDimension(), randomDimension()).quality(80).toBuffer(function (err, buffer) {
 			if (err) {
 				throw err;
 			} else {
 				assert.notStrictEqual(null, buffer);
 				deferred.resolve();
 			}
 		});
 	}
 }).add('sharp', {
 	defer: true,
 	fn: function(deferred) {
 		sharp(inputJpg).resize(randomDimension(), randomDimension()).toBuffer(function(err, buffer) {
 			if (err) {
 				throw err;
 			} else {
 				assert.notStrictEqual(null, buffer);
 				deferred.resolve();
 			}
 		});
 	}
 }).on('cycle', function(event) {
  console.log(String(event.target));
 }).on('complete', function() {
  var winner = this.filter('fastest').pluck('name');
  assert.strictEqual('sharp', String(winner), 'sharp was slower than ' + winner);
 	console.dir(sharp.cache());
 }).run();
--- a/tests/unit.js
+++ b/tests/unit.js
@@ -1,934 +0,0 @@
 /*jslint node: true */
 /*jslint es5: true */
 'use strict';
 var sharp = require('../index');
 var fs = require('fs');
 var path = require('path');
 var assert = require('assert');
 var async = require('async');
 var fixturesPath = path.join(__dirname, 'fixtures');
 var inputJpg = path.join(fixturesPath, '2569067123_aca715a2ee_o.jpg'); // http://www.flickr.com/photos/grizdave/2569067123/
 var inputJpgWithExif = path.join(fixturesPath, 'Landscape_8.jpg'); // https://github.com/recurser/exif-orientation-examples/blob/master/Landscape_8.jpg
 var inputJpgWithGammaHoliness = path.join(fixturesPath, 'gamma_dalai_lama_gray.jpg'); // http://www.4p8.com/eric.brasseur/gamma.html
 var inputJpgWithCmykProfile = path.join(fixturesPath, 'Channel_digital_image_CMYK_color.jpg'); // http://en.wikipedia.org/wiki/File:Channel_digital_image_CMYK_color.jpg
 var inputPng = path.join(fixturesPath, '50020484-00001.png'); // http://c.searspartsdirect.com/lis_png/PLDM/50020484-00001.png
 var inputPngWithTransparency = path.join(fixturesPath, 'blackbug.png'); // public domain
 var inputWebP = path.join(fixturesPath, '4.webp'); // http://www.gstatic.com/webp/gallery/4.webp
 var inputTiff = path.join(fixturesPath, 'G31D.TIF'); // http://www.fileformat.info/format/tiff/sample/e6c9a6e5253348f4aef6d17b534360ab/index.htm
 var inputGif = path.join(fixturesPath, 'Crash_test.gif'); // http://upload.wikimedia.org/wikipedia/commons/e/e3/Crash_test.gif
 var outputJpg = path.join(fixturesPath, 'output.jpg');
 var outputZoinks = path.join(fixturesPath, 'output.zoinks'); // an 'unknown' file extension
 // Ensure cache limits can be set
 sharp.cache(0); // Disable
 sharp.cache(50, 500); // 50MB, 500 items
 // Ensure concurrency can be set
 var defaultConcurrency = sharp.concurrency();
 sharp.concurrency(16);
 assert.strictEqual(16, sharp.concurrency());
 sharp.concurrency(0);
 assert.strictEqual(defaultConcurrency, sharp.concurrency());
 async.series([
  // Resize with exact crop
  function(done) {
    sharp(inputJpg).resize(320, 240).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(240, info.height);
      done();
    });
  },
  // Resize to fixed width
  function(done) {
    sharp(inputJpg).resize(320).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(261, info.height);
      done();
    });
  },
  // Resize to fixed height
  function(done) {
    sharp(inputJpg).resize(null, 320).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(391, info.width);
      assert.strictEqual(320, info.height);
      done();
    });
  },
  // Identity transform
  function(done) {
    sharp(inputJpg).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(2725, info.width);
      assert.strictEqual(2225, info.height);
      done();
    });
  },
  // Upscale
  function(done) {
    sharp(inputJpg).resize(3000).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(3000, info.width);
      assert.strictEqual(2449, info.height);
      done();
    });
  },
  // Embed - JPEG within PNG, no alpha channel
  function(done) {
    sharp(inputJpg)
      .embed()
      .resize(320, 240)
      .png()
      .toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('png', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        sharp(data).metadata(function(err, metadata) {
          if (err) throw err;
          assert.strictEqual(3, metadata.channels);
          done();
        });
      });
  },
  // Embed - JPEG within WebP, to include alpha channel
  function(done) {
    sharp(inputJpg)
      .resize(320, 240)
      .background({r: 0, g: 0, b: 0, a: 0})
      .embed()
      .webp()
      .toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('webp', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        sharp(data).metadata(function(err, metadata) {
          if (err) throw err;
          assert.strictEqual(4, metadata.channels);
          done();
        });
      });
  },
  // Quality
  function(done) {
    sharp(inputJpg).resize(320, 240).quality(70).toBuffer(function(err, buffer70) {
      if (err) throw err;
      sharp(inputJpg).resize(320, 240).toBuffer(function(err, buffer80) {
        if (err) throw err;
        sharp(inputJpg).resize(320, 240).quality(90).toBuffer(function(err, buffer90) {
          if (err) throw err;
          assert(buffer70.length < buffer80.length);
          assert(buffer80.length < buffer90.length);
          done();
        });
      });
    });
  },
  // TIFF with dimensions known to cause rounding errors
  function(done) {
    sharp(inputTiff).resize(240, 320).embed().jpeg().toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(240, info.width);
      assert.strictEqual(320, info.height);
      done();
    });
  },
  function(done) {
    sharp(inputTiff).resize(240, 320).jpeg().toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(240, info.width);
      assert.strictEqual(320, info.height);
      done();
    });
  },
  // Resize to max width or height considering ratio (landscape)
  function(done) {
    sharp(inputJpg).resize(320, 320).max().toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(261, info.height);
      done();
    });
  },
  // Resize to max width or height considering ratio (portrait)
  function(done) {
    sharp(inputTiff).resize(320, 320).max().jpeg().toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(243, info.width);
      assert.strictEqual(320, info.height);
      done();
    });
  },
  // Attempt to resize to max but only provide one dimension, so should default to crop
  function(done) {
    sharp(inputJpg).resize(320).max().toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(261, info.height);
      done();
    });
  },
  // Attempt to output to input, should fail
  function(done) {
    sharp(inputJpg).toFile(inputJpg, function(err) {
      assert(!!err);
      done();
    });
  },
  // Rotate by 90 degrees, respecting output input size
  function(done) {
    sharp(inputJpg).rotate(90).resize(320, 240).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(240, info.height);
      done();
    });
  },
  // Input image has Orientation EXIF tag but do not rotate output
  function(done) {
    sharp(inputJpgWithExif).resize(320).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(426, info.height);
      done();
    });
  },
  // Input image has Orientation EXIF tag value of 8 (270 degrees), auto-rotate
  function(done) {
    sharp(inputJpgWithExif).rotate().resize(320).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(240, info.height);
      done();
    });
  },
  // Attempt to auto-rotate using image that has no EXIF
  function(done) {
    sharp(inputJpg).rotate().resize(320).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(261, info.height);
      done();
    });
  },
  // Rotate to an invalid angle, should fail
  function(done) {
    var fail = false;
    try {
      sharp(inputJpg).rotate(1);
      fail = true;
    } catch (e) {}
    assert(!fail);
    done();
  },
  // Do not enlarge the output if the input width is already less than the output width
  function(done) {
    sharp(inputJpg).resize(2800).withoutEnlargement().toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(2725, info.width);
      assert.strictEqual(2225, info.height);
      done();
    });
  },
  // Do not enlarge the output if the input height is already less than the output height
  function(done) {
    sharp(inputJpg).resize(null, 2300).withoutEnlargement().toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(2725, info.width);
      assert.strictEqual(2225, info.height);
      done();
    });
  },
  // Promises/A+
  function(done) {
    sharp(inputJpg).resize(320, 240).toBuffer().then(function(data) {
      sharp(data).toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        done();
      });
    }).catch(function(err) {
      throw err;
    });
  },
  // Empty Buffer, should fail
  function(done) {
    var fail = false;
    try {
      sharp(new Buffer(0));
      fail = true;
    } catch (e) {}
    assert(!fail);
    done();
  },
  // Check colour space conversion occurs from TIFF to WebP (this used to segfault)
  function(done) {
    sharp(inputTiff).webp().toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('webp', info.format);
      done();
    });
  },
  // Check colour space conversion from CMYK to sRGB
  function(done) {
    sharp(inputJpgWithCmykProfile).resize(320).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      done();
    });
  },
  // Check colour space conversion from CMYK to sRGB works with background colour (yellow=fail)
  function(done) {
    sharp(inputJpgWithCmykProfile).resize(320, 240).background('white').embed().toFile(path.join(fixturesPath, 'output.cmyk2srgb.jpg'), function(err, info) {
      if (err) throw err;
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(240, info.height);
      done();
    });
  },
  // Interpolation: nearest neighbour
  function(done) {
    sharp(inputJpg).resize(320, 240).interpolateWith(sharp.interpolator.nearest).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(240, info.height);
      done();
    });
  },
  // Interpolation: bilinear
  function(done) {
    sharp(inputJpg).resize(320, 240).interpolateWith(sharp.interpolator.bilinear).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(240, info.height);
      done();
    });
  },
  // Interpolation: bicubic
  function(done) {
    sharp(inputJpg).resize(320, 240).interpolateWith(sharp.interpolator.bicubic).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(240, info.height);
      done();
    });
  },
  // Interpolation: nohalo
  function(done) {
    sharp(inputJpg).resize(320, 240).interpolateWith(sharp.interpolator.nohalo).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(240, info.height);
      done();
    });
  },
  // Interpolation: locally bounded bicubic (LBB)
  function(done) {
    sharp(inputJpg).resize(320, 240).interpolateWith(sharp.interpolator.locallyBoundedBicubic).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(240, info.height);
      done();
    });
  },
  // Interpolation: vertex split quadratic basis spline (VSQBS)
  function(done) {
    sharp(inputJpg).resize(320, 240).interpolateWith(sharp.interpolator.vertexSplitQuadraticBasisSpline).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(240, info.height);
      done();
    });
  },
  // File-Stream
  function(done) {
    var writable = fs.createWriteStream(outputJpg);
    writable.on('finish', function() {
      sharp(outputJpg).toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        fs.unlinkSync(outputJpg);
        done();
      });
    });
    sharp(inputJpg).resize(320, 240).pipe(writable);
  },
  // Buffer-Stream
  function(done) {
    var inputJpgBuffer = fs.readFileSync(inputJpg);
    var writable = fs.createWriteStream(outputJpg);
    writable.on('finish', function() {
      sharp(outputJpg).toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        fs.unlinkSync(outputJpg);
        done();
      });
    });
    sharp(inputJpgBuffer).resize(320, 240).pipe(writable);
  },
  // Stream-File
  function(done) {
    var readable = fs.createReadStream(inputJpg);
    var pipeline = sharp().resize(320, 240).toFile(outputJpg, function(err, info) {
      if (err) throw err;
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(240, info.height);
      fs.unlinkSync(outputJpg);
      done();
    });
    readable.pipe(pipeline);
  },
  // Stream-Buffer
  function(done) {
    var readable = fs.createReadStream(inputJpg);
    var pipeline = sharp().resize(320, 240).toBuffer(function(err, data, info) {
      if (err) throw err;
      assert.strictEqual(true, data.length > 0);
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(240, info.height);
      done();
    });
    readable.pipe(pipeline);
  },
  // Stream-Stream
  function(done) {
    var readable = fs.createReadStream(inputJpg);
    var writable = fs.createWriteStream(outputJpg);
    writable.on('finish', function() {
      sharp(outputJpg).toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual('jpeg', info.format);
        assert.strictEqual(320, info.width);
        assert.strictEqual(240, info.height);
        fs.unlinkSync(outputJpg);
        done();
      });
    });
    var pipeline = sharp().resize(320, 240);
    readable.pipe(pipeline).pipe(writable);
  },
  // Stream-Stream error handling
  function(done) {
    var pipeline = sharp().resize(320, 240);
    var anErrorWasEmitted = false;
    pipeline.on('error', function(err) {
      anErrorWasEmitted = !!err;
    }).on('end', function() {
      assert(anErrorWasEmitted);
      fs.unlinkSync(outputJpg);
      done();
    });
    var readableButNotAnImage = fs.createReadStream(__filename);
    var writable = fs.createWriteStream(outputJpg);
    readableButNotAnImage.pipe(pipeline).pipe(writable);
  },
  // File-Stream error handling
  function(done) {
    var readableButNotAnImage = sharp(__filename).resize(320, 240);
    var anErrorWasEmitted = false;
    readableButNotAnImage.on('error', function(err) {
      anErrorWasEmitted = !!err;
    }).on('end', function() {
      assert(anErrorWasEmitted);
      fs.unlinkSync(outputJpg);
      done();
    });
    var writable = fs.createWriteStream(outputJpg);
    readableButNotAnImage.pipe(writable);
  },
  // Crop, gravity=north
  function(done) {
    sharp(inputJpg).resize(320, 80).crop(sharp.gravity.north).toFile(path.join(fixturesPath, 'output.gravity-north.jpg'), function(err, info) {
      if (err) throw err;
      assert.strictEqual(320, info.width);
      assert.strictEqual(80, info.height);
      done();
    });
  },
  // Crop, gravity=east
  function(done) {
    sharp(inputJpg).resize(80, 320).crop(sharp.gravity.east).toFile(path.join(fixturesPath, 'output.gravity-east.jpg'), function(err, info) {
      if (err) throw err;
      assert.strictEqual(80, info.width);
      assert.strictEqual(320, info.height);
      done();
    });
  },
  // Crop, gravity=south
  function(done) {
    sharp(inputJpg).resize(320, 80).crop(sharp.gravity.south).toFile(path.join(fixturesPath, 'output.gravity-south.jpg'), function(err, info) {
      if (err) throw err;
      assert.strictEqual(320, info.width);
      assert.strictEqual(80, info.height);
      done();
    });
  },
  // Crop, gravity=west
  function(done) {
    sharp(inputJpg).resize(80, 320).crop(sharp.gravity.west).toFile(path.join(fixturesPath, 'output.gravity-west.jpg'), function(err, info) {
      if (err) throw err;
      assert.strictEqual(80, info.width);
      assert.strictEqual(320, info.height);
      done();
    });
  },
  // Crop, gravity=center
  function(done) {
    sharp(inputJpg).resize(320, 80).crop(sharp.gravity.center).toFile(path.join(fixturesPath, 'output.gravity-center.jpg'), function(err, info) {
      if (err) throw err;
      assert.strictEqual(320, info.width);
      assert.strictEqual(80, info.height);
      done();
    });
  },
  // Crop, gravity=centre
  function(done) {
    sharp(inputJpg).resize(80, 320).crop(sharp.gravity.centre).toFile(path.join(fixturesPath, 'output.gravity-centre.jpg'), function(err, info) {
      if (err) throw err;
      assert.strictEqual(80, info.width);
      assert.strictEqual(320, info.height);
      done();
    });
  },
  // Extract jpg
  function(done) {
    sharp(inputJpg).extract(2,2,20,20).toFile(path.join(fixturesPath, 'output.extract.jpg'), function(err, info) {
      if (err) throw err;
      assert.strictEqual(20, info.width);
      assert.strictEqual(20, info.height);
      done();
    });
  },
  // Extract png
  function(done) {
    sharp(inputPng).extract(300,200,400,200).toFile(path.join(fixturesPath, 'output.extract.png'), function(err, info) {
      if (err) throw err;
      assert.strictEqual(400, info.width);
      assert.strictEqual(200, info.height);
      done();
    });
  },
  // Extract webp
  function(done) {
    sharp(inputWebP).extract(50, 100, 125, 200).toFile(path.join(fixturesPath, 'output.extract.webp'), function(err, info) {
      if (err) throw err;
      assert.strictEqual(125, info.width);
      assert.strictEqual(200, info.height);
      done();
    });
  },
  // Extract tiff
  function(done) {
    sharp(inputTiff).extract(63, 34, 341, 529).toFile(path.join(fixturesPath, 'output.extract.tiff'), function(err, info) {
      if (err) throw err;
      assert.strictEqual(341, info.width);
      assert.strictEqual(529, info.height);
      done();
    });
  },
  // Extract before resize
  function(done) {
    sharp(inputJpg).extract(10, 10, 10, 500, 500).resize(100, 100).toFile(path.join(fixturesPath, 'output.extract.resize.jpg'), function(err, info) {
      if (err) throw err;
      assert.strictEqual(100, info.width);
      assert.strictEqual(100, info.height);
      done();
    });
  },
  // Extract after resize and crop
  function(done) {
    sharp(inputJpg).resize(500, 500).crop(sharp.gravity.north).extract(10, 10, 100, 100).toFile(path.join(fixturesPath, 'output.resize.crop.extract.jpg'), function(err, info) {
      if (err) throw err;
      assert.strictEqual(100, info.width);
      assert.strictEqual(100, info.height);
      done();
    });
  },
  // Extract before and after resize and crop
  function(done) {
    sharp(inputJpg).extract(0, 0, 700, 700).resize(500, 500).crop(sharp.gravity.north).extract(10, 10, 100, 100).toFile(path.join(fixturesPath, 'output.extract.resize.crop.extract.jpg'), function(err, info) {
      if (err) throw err;
      assert.strictEqual(100, info.width);
      assert.strictEqual(100, info.height);
      done();
    });
  },
  // Keeps Metadata after a resize
  function(done) {
      sharp(inputJpgWithExif).resize(320, 240).withMetadata().toBuffer(function(err, buffer) {
          if (err) throw err;
          sharp(buffer).metadata(function(err, metadata) {
              if (err) throw err;
              assert.strictEqual(8, metadata.orientation);
              done();
          });
      });
  },
  // Keeps Metadata after a resize
  function(done) {
      sharp(inputJpgWithExif).resize(320, 240).withMetadata(false).toBuffer(function(err, buffer) {
          if (err) throw err;
          sharp(buffer).metadata(function(err, metadata) {
              if (err) throw err;
              assert.strictEqual('undefined', typeof metadata.orientation);
              done();
          });
      });
  },
  // Output filename without extension should mirror input format
  function(done) {
    sharp(inputJpg).resize(320, 80).toFile(outputZoinks, function(err, info) {
      if (err) throw err;
      assert.strictEqual('jpeg', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(80, info.height);
      fs.unlinkSync(outputZoinks);
      done();
    });
  },
  function(done) {
    sharp(inputPng).resize(320, 80).toFile(outputZoinks, function(err, info) {
      if (err) throw err;
      assert.strictEqual('png', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(80, info.height);
      fs.unlinkSync(outputZoinks);
      done();
    });
  },
  function(done) {
    sharp(inputPngWithTransparency).resize(320, 80).toFile(outputZoinks, function(err, info) {
      if (err) throw err;
      assert.strictEqual('png', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(80, info.height);
      done();
    });
  },
  function(done) {
    sharp(inputWebP).resize(320, 80).toFile(outputZoinks, function(err, info) {
      if (err) throw err;
      assert.strictEqual('webp', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(80, info.height);
      fs.unlinkSync(outputZoinks);
      done();
    });
  },
  function(done) {
    sharp(inputTiff).resize(320, 80).toFile(outputZoinks, function(err, info) {
      if (err) throw err;
      assert.strictEqual('tiff', info.format);
      assert.strictEqual(320, info.width);
      assert.strictEqual(80, info.height);
      fs.unlinkSync(outputZoinks);
      done();
    });
  },
  function(done) {
    sharp(inputGif).resize(320, 80).toFile(outputZoinks, function(err) {
      assert(!!err);
      done();
    });
  },
  // Metadata - JPEG
  function(done) {
    sharp(inputJpg).metadata(function(err, metadata) {
      if (err) throw err;
      assert.strictEqual('jpeg', metadata.format);
      assert.strictEqual(2725, metadata.width);
      assert.strictEqual(2225, metadata.height);
      assert.strictEqual('srgb', metadata.space);
      assert.strictEqual(3, metadata.channels);
      assert.strictEqual('undefined', typeof metadata.orientation);
      done();
    });
  },
  // Metadata - JPEG with EXIF
  function(done) {
    sharp(inputJpgWithExif).metadata(function(err, metadata) {
      if (err) throw err;
      assert.strictEqual('jpeg', metadata.format);
      assert.strictEqual(450, metadata.width);
      assert.strictEqual(600, metadata.height);
      assert.strictEqual('srgb', metadata.space);
      assert.strictEqual(3, metadata.channels);
      assert.strictEqual(false, metadata.hasAlpha);
      assert.strictEqual(8, metadata.orientation);
      done();
    });
  },
  // Metadata - TIFF
  function(done) {
    sharp(inputTiff).metadata(function(err, metadata) {
      if (err) throw err;
      assert.strictEqual('tiff', metadata.format);
      assert.strictEqual(2464, metadata.width);
      assert.strictEqual(3248, metadata.height);
      assert.strictEqual('b-w', metadata.space);
      assert.strictEqual(1, metadata.channels);
      assert.strictEqual(false, metadata.hasAlpha);
      done();
    });
  },
  // Metadata - PNG
  function(done) {
    sharp(inputPng).metadata(function(err, metadata) {
      if (err) throw err;
      assert.strictEqual('png', metadata.format);
      assert.strictEqual(2809, metadata.width);
      assert.strictEqual(2074, metadata.height);
      assert.strictEqual('b-w', metadata.space);
      assert.strictEqual(1, metadata.channels);
      assert.strictEqual(false, metadata.hasAlpha);
      done();
    });
  },
  // Metadata - Transparent PNG
  function(done) {
    sharp(inputPngWithTransparency).metadata(function(err, metadata) {
      if (err) throw err;
      assert.strictEqual('png', metadata.format);
      assert.strictEqual(2048, metadata.width);
      assert.strictEqual(1536, metadata.height);
      assert.strictEqual('srgb', metadata.space);
      assert.strictEqual(4, metadata.channels);
      assert.strictEqual(true, metadata.hasAlpha);
      done();
    });
  },
  // Metadata - WebP
  function(done) {
    sharp(inputWebP).metadata(function(err, metadata) {
      if (err) throw err;
      assert.strictEqual('webp', metadata.format);
      assert.strictEqual(1024, metadata.width);
      assert.strictEqual(772, metadata.height);
      assert.strictEqual('srgb', metadata.space);
      assert.strictEqual(3, metadata.channels);
      assert.strictEqual(false, metadata.hasAlpha);
      done();
    });
  },
  // Metadata - GIF (via libmagick)
  function(done) {
    sharp(inputGif).metadata(function(err, metadata) {
      if (err) throw err;
      assert.strictEqual('magick', metadata.format);
      assert.strictEqual(800, metadata.width);
      assert.strictEqual(533, metadata.height);
      assert.strictEqual(3, metadata.channels);
      assert.strictEqual(false, metadata.hasAlpha);
      done();
    });
  },
  // Metadata - Promise
  function(done) {
    sharp(inputJpg).metadata().then(function(metadata) {
      assert.strictEqual('jpeg', metadata.format);
      assert.strictEqual(2725, metadata.width);
      assert.strictEqual(2225, metadata.height);
      assert.strictEqual('srgb', metadata.space);
      assert.strictEqual(3, metadata.channels);
      assert.strictEqual(false, metadata.hasAlpha);
      done();
    });
  },
  // Metadata - Stream
  function(done) {
    var readable = fs.createReadStream(inputJpg);
    var pipeline = sharp().metadata(function(err, metadata) {
      if (err) throw err;
      assert.strictEqual('jpeg', metadata.format);
      assert.strictEqual(2725, metadata.width);
      assert.strictEqual(2225, metadata.height);
      assert.strictEqual('srgb', metadata.space);
      assert.strictEqual(3, metadata.channels);
      assert.strictEqual(false, metadata.hasAlpha);
      done();
    });
    readable.pipe(pipeline);
  },
  // Get metadata then resize to half width
  function(done) {
    var image = sharp(inputJpg);
    image.metadata(function(err, metadata) {
      if (err) throw err;
      assert.strictEqual('jpeg', metadata.format);
      assert.strictEqual(2725, metadata.width);
      assert.strictEqual(2225, metadata.height);
      assert.strictEqual('srgb', metadata.space);
      assert.strictEqual(3, metadata.channels);
      assert.strictEqual(false, metadata.hasAlpha);
      image.resize(metadata.width / 2).toBuffer(function(err, data, info) {
        if (err) throw err;
        assert.strictEqual(true, data.length > 0);
        assert.strictEqual(1362, info.width);
        assert.strictEqual(1112, info.height);
        done();
      });
    });
  },
  // Gamma correction
  function(done) {
    sharp(inputJpgWithGammaHoliness).resize(129, 111).toFile(path.join(fixturesPath, 'output.gamma-0.0.jpg'), function(err) {
      if (err) throw err;
      done();
    });
  },
  function(done) {
    sharp(inputJpgWithGammaHoliness).resize(129, 111).gamma().toFile(path.join(fixturesPath, 'output.gamma-2.2.jpg'), function(err) {
      if (err) throw err;
      done();
    });
  },
  function(done) {
    sharp(inputJpgWithGammaHoliness).resize(129, 111).gamma(3).toFile(path.join(fixturesPath, 'output.gamma-3.0.jpg'), function(err) {
      if (err) throw err;
      done();
    });
  },
  // Greyscale conversion
  function(done) {
    sharp(inputJpg).resize(320, 240).greyscale().toFile(path.join(fixturesPath, 'output.greyscale-gamma-0.0.jpg'), function(err) {
      if (err) throw err;
      done();
    });
  },
  function(done) {
    sharp(inputJpg).resize(320, 240).gamma().greyscale().toFile(path.join(fixturesPath, 'output.greyscale-gamma-2.2.jpg'), function(err) {
      if (err) throw err;
      done();
    });
  },
  // Flattening
  function(done) {
    sharp(inputPngWithTransparency).flatten().resize(400, 300).toFile(path.join(fixturesPath, 'output.flatten-black.jpg'), function(err) {
      if (err) throw err;
      done();
    });
  },
  function(done) {
    sharp(inputPngWithTransparency).flatten().background({r: 255, g: 102, b: 0}).resize(400, 300).toFile(path.join(fixturesPath, 'output.flatten-rgb-orange.jpg'), function(err) {
      if (err) throw err;
      done();
    });
  },
  function(done) {
    sharp(inputPngWithTransparency).flatten().background('#ff6600').resize(400, 300).toFile(path.join(fixturesPath, 'output.flatten-hex-orange.jpg'), function(err) {
      if (err) throw err;
      done();
    });
  },
  function(done) {
    sharp(inputJpg).background('#ff0000').flatten().resize(500, 400).toFile(path.join(fixturesPath, 'output.flatten-input-jpg.jpg'), function(err) {
      if (err) throw err;
      done();
    });
  },
  // PNG compression level - valid
  function(done) {
    var isValid = false;
    try {
      sharp().compressionLevel(0);
      isValid = true;
    } catch (e) {}
    assert(isValid);
    done();
  },
  // PNG compression level - invalid
  function(done) {
    var isValid = false;
    try {
      sharp().compressionLevel(-1);
      isValid = true;
    } catch (e) {}
    assert(!isValid);
    done();
  },
  // Verify internal counters
  function(done) {
    var counters = sharp.counters();
    assert.strictEqual(0, counters.queue);
    assert.strictEqual(0, counters.process);
    done();
  },
  // Empty cache
  function(done) {
    sharp.cache(0);
    done();
  }
 ]);
Author	SHA1	Message	Date
Lovell Fuller	177a4f574c	Minimum version of libvips now 7.40.0 #74	2014-11-17 12:08:05 +00:00
Lovell Fuller	e22d093002	Ubuntu 14 now compiles 7.40.x from source as packaged version is the outdated 7.38.x Added support for Ubuntu 15 and Mint 17.1	2014-11-12 20:30:13 +00:00
Lovell Fuller	e7f6d49bc1	Additional blur radii tests #108	2014-11-12 20:11:28 +00:00
Lovell Fuller	b886db4b0d	Add bounds checks on blur/sharpen parameters #108	2014-11-12 20:06:28 +00:00
Lovell Fuller	ee513ac7a7	Less C, more C++ e.g. namespace, enum class Improve image reference handling	2014-11-11 18:28:23 +00:00
Lovell Fuller	e465306d97	Disable libvips cache for unit tests Aids memory leak detection	2014-11-11 18:09:48 +00:00
Lovell Fuller	32d9bc204a	Add 'fast' blur and Gaussian blur feature #108	2014-11-10 22:38:13 +00:00
Lovell Fuller	df5cf402e3	Ensure leak check tests child processes	2014-11-10 22:35:22 +00:00
Lovell Fuller	86681100b7	Control level of sharpening via radius/flat/jagged #108	2014-11-10 16:20:04 +00:00
Lovell Fuller	47927ef47d	Shrink less, affine more, maintain performance #75 Affects interpolators with 4x4+ window size e.g. Bicubic, LBB, Nohalo Introduces blur before large affine to improve large PNG reductions	2014-11-08 12:08:27 +00:00
Lovell Fuller	7537adf399	Add features from libvips 7.40+ Load TIFF from Buffer/Stream Interlaced PNG output no longer needs tilecache Option to disable PNG adaptive row filtering	2014-11-08 12:08:27 +00:00
Lovell Fuller	740838b47c	Prevent auto-rotate fail for libmagick formats #117	2014-11-08 12:07:47 +00:00
Lovell Fuller	f7c2a839ad	Add support for profile-less CMYK images #99	2014-11-06 11:30:19 +00:00
Lovell Fuller	62fcfb3dba	Add link to gulp-responsive module	2014-11-04 11:23:40 +00:00
Lovell Fuller	333e8789f4	Include cmath, erroneously removed in `3a9a137f`	2014-10-29 13:32:19 +00:00
Lovell Fuller	3a9a137f40	Modify C++ 11 to be MS-friendly #19	2014-10-29 13:16:16 +00:00
Lovell Fuller	5c51612982	Version bumps ahead of v0.7.1	2014-10-28 11:12:40 +00:00
Lovell Fuller	a472adeb74	Fail fast for Buffer with unsupported format #105	2014-10-28 10:53:11 +00:00
Lovell Fuller	2e61839387	Prepare preinstall.sh for inclusion in master	2014-10-28 09:59:28 +00:00
Lovell Fuller	51805ef657	Add root check and support for Debian 7, Mint 13	2014-10-27 22:32:39 +00:00
Lovell Fuller	5856e41a62	Merge pull request #111 from papandreou/preinstallOnDebianWheezy Build from source on Debian Wheezy	2014-10-27 15:47:29 +00:00
Andreas Lind	ffbe6b7d76	Build from source on Debian Wheezy.	2014-10-27 15:23:40 +01:00
Lovell Fuller	ed6a966534	Add shell script to install libvips	2014-10-24 10:57:45 +01:00
Lovell Fuller	97fc2a2a3a	Ensure resize error from C++ is wrapped Thanks to @papandreou	2014-10-23 09:39:37 +01:00
Lovell Fuller	3e1be7a33a	Merge pull request #107 from papandreou/doNotUnrefUnparsableImages Do not call g_object_unref when imageType comes out as UNKNOWN.	2014-10-23 09:23:37 +01:00
Lovell Fuller	4a4dd7f987	Merge pull request #106 from papandreou/errorInstances Pass errors as Error instances rather than strings.	2014-10-23 09:22:15 +01:00
Andreas Lind	005c628352	Do not call g_object_unref when imageType comes out as UNKNOWN. Avoids "(sharp:23220): GLib-GObject-CRITICAL **: g_object_unref: assertion 'G_IS_OBJECT (object)' failed" dumped to the console when an unsupported or invalid image is loaded.	2014-10-23 08:32:23 +02:00
Andreas Lind	1bd316de80	Pass errors as Error instances rather than strings.	2014-10-23 08:27:10 +02:00
Lovell Fuller	49b44d8238	Ensure compilation on RHEL/Centos 6 gcc	2014-10-21 22:01:43 +01:00
Lovell Fuller	8bc1981891	Refactor C++ code Split features into their own file Style is becoming less C, more C++	2014-10-21 21:38:19 +01:00
Lovell Fuller	db6dc6431b	Add support for mirroring #62	2014-10-21 14:47:08 +01:00
Lovell Fuller	f214673c3c	Add Coveralls badge	2014-10-21 12:57:24 +01:00
Lovell Fuller	ffe00ee398	Travis CI + Coveralls integration	2014-10-21 12:40:11 +01:00
Lovell Fuller	6cade5bd7f	Increase unit test coverage to ~95%	2014-10-21 12:22:23 +01:00
Lovell Fuller	a531b5917e	Add details about running leak and bench tests	2014-10-20 15:54:44 +01:00
Lovell Fuller	ca561daedf	Test code refactor #63 Use mocha for feature-specific unit tests Add test coverage report via istanbul	2014-10-20 15:32:56 +01:00