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Major rewrite and therefore API change. Despite the name, image sharpening is now optional, plus there are other new options. Can now handle buffers in and out. Doubled performance in certain cases. Closes #3. Closes #4.

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Lovell Fuller 2014-01-19 21:38:37 +00:00
parent be8f35d830
commit d509458ba1
6 changed files with 454 additions and 219 deletions
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127
README.md
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@ -1,4 +1,4 @@
# sharp
# sharp
_adj_
@ -9,22 +9,17 @@ _adj_
The typical use case for this high speed Node.js module is to convert large JPEG and PNG images to smaller JPEG and PNG images of varying dimensions.
It is somewhat opinionated in that it only deals with JPEG and PNG images, always obeys the requested dimensions by either cropping or embedding and insists on a mild sharpen of the resulting image.
Under the hood you'll find the blazingly fast [libvips](https://github.com/jcupitt/libvips) image processing library, originally created in 1989 at Birkbeck College and currently maintained by John Cupitt.
Under the hood you'll find the blazingly fast [libvips](https://github.com/jcupitt/libvips) image processing library, originally created in 1989 at Birkbeck College and currently maintained by the University of Southampton.
Performance is 12x-15x faster than ImageMagick and 4x-6x faster than GraphicsMagick, based mainly on the number of CPU cores available.
Performance is up to 18x faster than ImageMagick and up to 8x faster than GraphicsMagick, based mainly on the number of CPU cores available.
## Prerequisites
* Node.js v0.8+
* node-gyp
* [libvips](https://github.com/jcupitt/libvips) v7.37+
* [libvips](https://github.com/jcupitt/libvips) v7.38+
For the sharpest results, please compile libvips from source.
If you prefer to run a stable, package-managed environment such as Ubuntu 12.04 LTS, [v0.0.3](https://github.com/lovell/sharp/tree/v0.0.3) will work with the libvips-dev package.
## Install
npm install sharp
@ -33,12 +28,31 @@ If you prefer to run a stable, package-managed environment such as Ubuntu 12.04
var sharp = require("sharp");
### crop(input, output, width, height, callback)
### resize(input, output, width, height, [options], callback)
Scale and crop to `width` x `height` calling `callback` when complete.
`input` can either be a filename String or a Buffer. When using a filename libvips will `mmap` the file for improved performance.
`output` can either be a filename String or one of `sharp.buffer.jpeg` or `sharp.buffer.png` to pass a Buffer containing image data to `callback`.
`width` is the Number of pixels wide the resultant image should be.
`height` is the Number of pixels high the resultant image should be.
`options` is optional, and can contain one or more of:
* `canvas` can be one of `sharp.canvas.crop`, `sharp.canvas.embedWhite` or `sharp.canvas.embedBlack`. Defaults to `sharp.canvas.crop`.
* `sharpen` when set to true will perform a mild sharpen of the resultant image. This typically reduces performance by 30%.
* `progressive` when set will use progressive (interlace) scan for the output. This typically reduces performance by 30%.
* `sequentialRead` is an advanced setting that, when set, switches the libvips access method to `VIPS_ACCESS_SEQUENTIAL`. This will reduce memory usage and can improve performance on some systems.
`callback` gets two arguments `(err, buffer)` where `err` is an error message, if any, and `buffer` is the resultant image data when a Buffer is requested.
### Examples
```javascript
sharp.crop("input.jpg", "output.jpg", 300, 200, function(err) {
sharp.resize("input.jpg", "output.jpg", 300, 200, function(err) {
if (err) {
throw err;
}
@ -48,73 +62,43 @@ sharp.crop("input.jpg", "output.jpg", 300, 200, function(err) {
```
```javascript
sharp.crop("input.jpg", sharp.buffer.jpeg, 300, 200, function(err, buffer) {
sharp.resize("input.jpg", sharp.buffer.jpeg, 300, 200, {progressive: true}, function(err, buffer) {
if (err) {
throw err;
}
// buffer contains JPEG image data
// buffer contains progressive JPEG image data
});
```
```javascript
sharp.crop("input.jpg", sharp.buffer.png, 300, 200, function(err, buffer) {
sharp.resize("input.jpg", sharp.buffer.png, 300, 200, {sharpen: true}, function(err, buffer) {
if (err) {
throw err;
}
// buffer contains PNG image data (converted from JPEG)
});
```
### embedWhite(input, output, width, height, callback)
Scale and embed to `width` x `height` using a white canvas calling `callback` when complete.
```javascript
sharp.embedWhite("input.jpg", "output.jpg", 200, 300, function(err) {
if (err) {
throw err;
}
// output.jpg is a 200 pixels wide and 300 pixels high image
// containing a scaled version of input.png embedded on a white canvas
// buffer contains sharpened PNG image data (converted from JPEG)
});
```
```javascript
sharp.embedWhite("input.jpg", sharp.buffer.jpeg, 200, 300, function(err, buffer) {
sharp.resize(buffer, "output.jpg", 200, 300, {canvas: sharp.canvas.embedWhite}, function(err) {
if (err) {
throw err;
}
// buffer contains JPEG image data
// output.jpg is a 200 pixels wide and 300 pixels high image containing a scaled version
// of the image data contained in buffer embedded on a white canvas
});
```
### embedBlack(input, output, width, height, callback)
Scale and embed to `width` x `height` using a black canvas calling `callback` when complete.
```javascript
sharp.embedBlack("input.png", "output.png", 200, 300, function(err) {
sharp.resize("input.jpg", sharp.buffer.jpeg, 200, 300, {canvas: sharp.canvas.embedBlack}, function(err, buffer) {
if (err) {
throw err;
}
// output.png is a 200 pixels wide and 300 pixels high image
// buffer contains JPEG image data of a 200 pixels wide and 300 pixels high image
// containing a scaled version of input.png embedded on a black canvas
});
```
### Parameters common to all methods
#### input
String containing the filename to read from.
#### output
One of:
* String containing the filename to write to.
* `sharp.buffer.jpeg` to pass a Buffer containing JPEG image data to `callback`.
* `sharp.buffer.png` to pass a Buffer containing PNG image data to `callback`.
## Testing
npm test
@ -129,20 +113,41 @@ Test environment:
* libpng 1.6.6
* zlib1g 1.2.7
#### JPEG
`-file-buffer` indicates read from file and write to buffer, `-buffer-file` indicates read from buffer and write to file etc.
* imagemagick x 5.53 ops/sec ±0.55% (31 runs sampled)
* gm x 10.86 ops/sec ±0.43% (56 runs sampled)
* epeg x 28.07 ops/sec ±0.07% (70 runs sampled)
* sharp-file x 72.01 ops/sec ±7.19% (74 runs sampled)
* sharp-buffer x 75.73 ops/sec ±0.44% (75 runs sampled)
`-sharpen`, `-progressive` etc. demonstrate the negative effect of options on performance.
#### PNG
### JPEG
* imagemagick x 4.65 ops/sec ±0.37% (27 runs sampled)
* gm x 21.65 ops/sec ±0.18% (56 runs sampled)
* sharp-file x 43.80 ops/sec ±6.81% (75 runs sampled)
* sharp-buffer x 45.67 ops/sec ±0.41% (75 runs sampled)
* imagemagick x 5.50 ops/sec ±0.48% (31 runs sampled)
* gm-file-file x 11.19 ops/sec ±0.51% (57 runs sampled)
* gm-file-buffer x 11.11 ops/sec ±0.42% (57 runs sampled)
* epeg-file-file x 28.59 ops/sec ±0.09% (71 runs sampled)
* epeg-file-buffer x 28.67 ops/sec ±0.14% (71 runs sampled)
* sharp-buffer-file x 24.72 ops/sec ±0.42% (62 runs sampled)
* sharp-buffer-buffer x 24.24 ops/sec ±0.36% (61 runs sampled)
* sharp-file-file x 97.15 ops/sec ±0.44% (80 runs sampled)
* sharp-file-buffer x __98.51 ops/sec__ ±0.42% (80 runs sampled)
* sharp-file-buffer-sharpen x 56.99 ops/sec ±5.43% (57 runs sampled)
* sharp-file-buffer-progressive x 64.89 ops/sec ±0.42% (79 runs sampled)
* sharp-file-buffer-sequentialRead x 64.13 ops/sec ±0.40% (78 runs sampled)
### PNG
* imagemagick x 4.31 ops/sec ±0.27% (26 runs sampled)
* gm-file-file x 17.89 ops/sec ±0.21% (86 runs sampled)
* gm-file-buffer x 14.74 ops/sec ±0.15% (73 runs sampled)
* sharp-buffer-file x 4.97 ops/sec ±120.47% (26 runs sampled)
* sharp-buffer-buffer x 13.00 ops/sec ±0.53% (65 runs sampled)
* sharp-file-file x 53.00 ops/sec ±7.15% (88 runs sampled)
* sharp-file-buffer x __55.43 ops/sec__ ±0.65% (89 runs sampled)
* sharp-file-buffer-sharpen x 45.37 ops/sec ±0.38% (74 runs sampled)
* sharp-file-buffer-progressive x 55.49 ops/sec ±0.45% (89 runs sampled)
* sharp-file-buffer-sequentialRead x 32.27 ops/sec ±0.29% (79 runs sampled)
## Licence

4
binding.gyp
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@ -11,7 +11,7 @@
'/usr/lib/glib-2.0/include',
'/usr/lib/x86_64-linux-gnu/glib-2.0/include'
],
'cflags': ['-fexceptions'],
'cflags_cc': ['-fexceptions']
'cflags': ['-fexceptions', '-O3'],
'cflags_cc': ['-fexceptions', '-O3']
}]
}

56
index.js
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@ -5,14 +5,60 @@ module.exports.buffer = {
png: "__png"
};
module.exports.crop = function(input, output, width, height, callback) {
sharp.resize(input, output, width, height, "c", callback);
module.exports.canvas = {
crop: "c",
embedWhite: "w",
embedBlack: "b"
};
module.exports.resize = function(input, output, width, height, options, callback) {
"use strict";
if (typeof options === 'function') {
callback = options;
options = {};
} else {
options = options || {};
}
if (typeof input === 'string') {
options.inFile = input;
} else if (typeof input ==='object' && input instanceof Buffer) {
options.inBuffer = input;
} else {
callback("Unsupported input " + typeof input);
return;
}
if (!output || output.length === 0) {
callback("Invalid output");
return;
}
var outWidth = Number(width);
if (Number.isNaN(outWidth)) {
callback("Invalid width " + width);
return;
}
var outHeight = Number(height);
if (Number.isNaN(outHeight)) {
callback("Invalid height " + height);
return;
}
var canvas = options.canvas || "c";
if (canvas.length !== 1 || "cwb".indexOf(canvas) === -1) {
callback("Invalid canvas " + canvas);
return;
}
var sharpen = !!options.sharpen;
var progessive = !!options.progessive;
var sequentialRead = !!options.sequentialRead;
sharp.resize(options.inFile, options.inBuffer, output, width, height, canvas, sharpen, progessive, sequentialRead, callback);
};
/* Deprecated v0.0.x methods */
module.exports.crop = function(input, output, width, height, sharpen, callback) {
sharp.resize(input, output, width, height, {canvas: "c", sharpen: true}, callback);
};
module.exports.embedWhite = function(input, output, width, height, callback) {
sharp.resize(input, output, width, height, "w", callback);
sharp.resize(input, output, width, height, {canvas: "w", sharpen: true}, callback);
};
module.exports.embedBlack = function(input, output, width, height, callback) {
sharp.resize(input, output, width, height, "b", callback);
sharp.resize(input, output, width, height, {canvas: "b", sharpen: true}, callback);
};

2
package.json
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@ -1,6 +1,6 @@
{
"name": "sharp",
"version": "0.0.9",
"version": "0.1.0",
"author": "Lovell Fuller",
"description": "High performance module to resize JPEG and PNG images using the libvips image processing library",
"scripts": {

273
src/sharp.cc
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@ -2,58 +2,93 @@
#include <node_buffer.h>
#include <math.h>
#include <string>
#include <string.h>
#include <vips/vips.h>
using namespace v8;
using namespace node;
struct ResizeBaton {
std::string src;
std::string dst;
struct resize_baton {
std::string file_in;
void* buffer_in;
size_t buffer_in_len;
std::string file_out;
void* buffer_out;
size_t buffer_out_len;
int cols;
int rows;
int width;
int height;
bool crop;
int embed;
bool sharpen;
bool progessive;
VipsAccess access_method;
std::string err;
Persistent<Function> callback;
ResizeBaton() : buffer_out_len(0) {}
resize_baton(): buffer_in_len(0), buffer_out_len(0) {}
};
bool EndsWith(std::string const &str, std::string const &end) {
typedef enum {
JPEG,
PNG
} ImageType;
unsigned char MARKER_JPEG[] = {0xff, 0xd8};
unsigned char MARKER_PNG[] = {0x89, 0x50};
bool ends_with(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");
bool is_jpeg(std::string const &str) {
return ends_with(str, ".jpg") || ends_with(str, ".jpeg");
}
bool IsPng(std::string const &str) {
return EndsWith(str, ".png");
bool is_png(std::string const &str) {
return ends_with(str, ".png");
}
void ResizeAsync(uv_work_t *work) {
ResizeBaton* baton = static_cast<ResizeBaton*>(work->data);
VipsImage *in = vips_image_new();
if (IsJpeg(baton->src)) {
vips_jpegload((baton->src).c_str(), &in, NULL);
} else if (IsPng(baton->src)) {
vips_pngload((baton->src).c_str(), &in, NULL);
} else {
(baton->err).append("Unsupported input file type");
return;
}
if (in == NULL) {
void resize_error(resize_baton *baton, VipsImage *unref) {
(baton->err).append(vips_error_buffer());
vips_error_clear();
g_object_unref(unref);
vips_thread_shutdown();
return;
}
void resize_async(uv_work_t *work) {
resize_baton* baton = static_cast<resize_baton*>(work->data);
ImageType inputImageType = JPEG;
VipsImage *in = vips_image_new();
if (baton->buffer_in_len > 1) {
if (memcmp(MARKER_JPEG, baton->buffer_in, 2) == 0) {
if (vips_jpegload_buffer(baton->buffer_in, baton->buffer_in_len, &in, "access", baton->access_method, NULL)) {
return resize_error(baton, in);
}
} else if(memcmp(MARKER_PNG, baton->buffer_in, 2) == 0) {
inputImageType = PNG;
if (vips_pngload_buffer(baton->buffer_in, baton->buffer_in_len, &in, "access", baton->access_method, NULL)) {
return resize_error(baton, in);
}
}
} else if (is_jpeg(baton->file_in)) {
if (vips_jpegload((baton->file_in).c_str(), &in, "access", baton->access_method, NULL)) {
return resize_error(baton, in);
}
} else if (is_png(baton->file_in)) {
inputImageType = PNG;
if (vips_pngload((baton->file_in).c_str(), &in, "access", baton->access_method, NULL)) {
return resize_error(baton, in);
}
} else {
resize_error(baton, in);
(baton->err).append("Unsupported input " + baton->file_in);
return;
}
double xfactor = static_cast<double>(in->Xsize) / std::max(baton->cols, 1);
double yfactor = static_cast<double>(in->Ysize) / std::max(baton->rows, 1);
double xfactor = static_cast<double>(in->Xsize) / std::max(baton->width, 1);
double yfactor = static_cast<double>(in->Ysize) / std::max(baton->height, 1);
double factor = baton->crop ? std::min(xfactor, yfactor) : std::max(xfactor, yfactor);
factor = std::max(factor, 1.0);
int shrink = floor(factor);
@ -61,7 +96,7 @@ void ResizeAsync(uv_work_t *work) {
// Try to use libjpeg shrink-on-load
int shrink_on_load = 1;
if (IsJpeg(baton->src)) {
if (inputImageType == JPEG) {
if (shrink >= 8) {
residual = residual * shrink / 8;
shrink_on_load = 8;
@ -76,129 +111,117 @@ void ResizeAsync(uv_work_t *work) {
shrink = 1;
}
if (shrink_on_load > 1) {
if (vips_jpegload((baton->src).c_str(), &in, "shrink", shrink_on_load, NULL)) {
(baton->err).append(vips_error_buffer());
vips_error_clear();
g_object_unref(in);
return;
in = vips_image_new();
if (baton->buffer_in_len > 1) {
if (vips_jpegload_buffer(baton->buffer_in, baton->buffer_in_len, &in, "shrink", shrink_on_load, NULL)) {
return resize_error(baton, in);
}
} else {
if (vips_jpegload((baton->file_in).c_str(), &in, "shrink", shrink_on_load, NULL)) {
return resize_error(baton, in);
}
}
}
}
VipsImage* img = in;
VipsImage* t[4];
if (im_open_local_array(img, t, 4, "temp", "p")) {
(baton->err).append(vips_error_buffer());
vips_error_clear();
g_object_unref(in);
return;
}
VipsImage *shrunk = vips_image_new();
if (shrink > 1) {
// Use vips_shrink with the integral reduction
if (vips_shrink(img, &t[0], shrink, shrink, NULL)) {
(baton->err).append(vips_error_buffer());
vips_error_clear();
g_object_unref(in);
return;
if (vips_shrink(in, &shrunk, shrink, shrink, NULL)) {
return resize_error(baton, in);
}
} else {
t[0] = img;
vips_copy(in, &shrunk, NULL);
}
g_object_unref(in);
// Use vips_affine with the remaining float part using bilinear interpolation
if (vips_affine(t[0], &t[1], residual, 0, 0, residual, "interpolate", vips_interpolate_bilinear_static(), NULL)) {
(baton->err).append(vips_error_buffer());
vips_error_clear();
g_object_unref(in);
return;
VipsImage *affined = vips_image_new();
if (vips_affine(shrunk, &affined, residual, 0, 0, residual, "interpolate", vips_interpolate_bilinear_static(), NULL)) {
return resize_error(baton, shrunk);
}
img = t[1];
g_object_unref(shrunk);
VipsImage *canvased = vips_image_new();
if (baton->crop) {
int width = std::min(img->Xsize, baton->cols);
int height = std::min(img->Ysize, baton->rows);
int left = (img->Xsize - width + 1) / 2;
int top = (img->Ysize - height + 1) / 2;
if (im_extract_area(img, t[2], left, top, width, height)) {
(baton->err).append(vips_error_buffer());
vips_error_clear();
g_object_unref(in);
return;
int width = std::min(affined->Xsize, baton->width);
int height = std::min(affined->Ysize, baton->height);
int left = (affined->Xsize - width + 1) / 2;
int top = (affined->Ysize - height + 1) / 2;
if (vips_extract_area(affined, &canvased, left, top, width, height, NULL)) {
return resize_error(baton, affined);
}
img = t[2];
} else {
int left = (baton->cols - img->Xsize) / 2;
int top = (baton->rows - img->Ysize) / 2;
if (im_embed(img, t[2], baton->embed, left, top, baton->cols, baton->rows)) {
(baton->err).append(vips_error_buffer());
vips_error_clear();
g_object_unref(in);
return;
int left = (baton->width - affined->Xsize) / 2;
int top = (baton->height - affined->Ysize) / 2;
if (vips_embed(affined, &canvased, baton->embed, left, top, baton->width, baton->height, NULL)) {
return resize_error(baton, affined);
}
img = t[2];
}
g_object_unref(affined);
// Mild sharpen
VipsImage *sharpened = vips_image_new();
if (baton->sharpen) {
INTMASK* sharpen = im_create_imaskv("sharpen", 3, 3,
-1, -1, -1,
-1, 32, -1,
-1, -1, -1);
sharpen->scale = 24;
if (im_conv(img, t[3], sharpen)) {
(baton->err).append(vips_error_buffer());
vips_error_clear();
g_object_unref(in);
return;
}
img = t[3];
if (baton->dst == "__jpeg") {
// Write JPEG to buffer
if (vips_jpegsave_buffer(img, &baton->buffer_out, &baton->buffer_out_len, "strip", TRUE, "Q", 80, "optimize_coding", TRUE, NULL)) {
(baton->err).append(vips_error_buffer());
vips_error_clear();
}
} else if (baton->dst == "__png") {
// Write PNG to buffer
if (vips_pngsave_buffer(img, &baton->buffer_out, &baton->buffer_out_len, "strip", TRUE, "compression", 6, "interlace", FALSE, NULL)) {
(baton->err).append(vips_error_buffer());
vips_error_clear();
}
} else if (EndsWith(baton->dst, ".jpg") || EndsWith(baton->dst, ".jpeg")) {
// Write JPEG to file
if (vips_foreign_save(img, baton->dst.c_str(), "strip", TRUE, "Q", 80, "optimize_coding", TRUE, NULL)) {
(baton->err).append(vips_error_buffer());
vips_error_clear();
}
} else if (EndsWith(baton->dst, ".png")) {
// Write PNG to file
if (vips_foreign_save(img, baton->dst.c_str(), "strip", TRUE, "compression", 6, "interlace", FALSE, NULL)) {
(baton->err).append(vips_error_buffer());
vips_error_clear();
if (im_conv(canvased, sharpened, sharpen)) {
return resize_error(baton, canvased);
}
} else {
(baton->err).append("Unsupported output file type");
vips_copy(canvased, &sharpened, NULL);
}
g_object_unref(in);
g_object_unref(canvased);
if (baton->file_out == "__jpeg") {
// Write JPEG to buffer
if (vips_jpegsave_buffer(canvased, &baton->buffer_out, &baton->buffer_out_len, "strip", TRUE, "Q", 80, "optimize_coding", TRUE, "interlace", baton->progessive, NULL)) {
return resize_error(baton, canvased);
}
} else if (baton->file_out == "__png") {
// Write PNG to buffer
if (vips_pngsave_buffer(canvased, &baton->buffer_out, &baton->buffer_out_len, "strip", TRUE, "compression", 6, "interlace", baton->progessive, NULL)) {
return resize_error(baton, canvased);
}
} else if (is_jpeg(baton->file_out)) {
// Write JPEG to file
if (vips_jpegsave(canvased, baton->file_out.c_str(), "strip", TRUE, "Q", 80, "optimize_coding", TRUE, "interlace", baton->progessive, NULL)) {
return resize_error(baton, canvased);
}
} else if (is_png(baton->file_out)) {
// Write PNG to file
if (vips_pngsave(canvased, baton->file_out.c_str(), "strip", TRUE, "compression", 6, "interlace", baton->progessive, NULL)) {
return resize_error(baton, canvased);
}
} else {
(baton->err).append("Unsupported output " + baton->file_out);
}
g_object_unref(canvased);
vips_thread_shutdown();
}
void ResizeAsyncAfter(uv_work_t *work, int status) {
void resize_async_after(uv_work_t *work, int status) {
HandleScope scope;
ResizeBaton *baton = static_cast<ResizeBaton*>(work->data);
resize_baton *baton = static_cast<resize_baton*>(work->data);
Local<Value> null = Local<Value>::New(Null());
Local<Value> argv[2] = {null, null};
Handle<Value> argv[2] = { Null(), Null() };
if (!baton->err.empty()) {
// Error
argv[0] = String::New(baton->err.data(), baton->err.size());
} else if (baton->buffer_out_len > 0) {
// Buffer
Buffer *buffer = Buffer::New((const char*)(baton->buffer_out), baton->buffer_out_len);
argv[1] = Local<Object>::New(buffer->handle_);
vips_free(baton->buffer_out);
Buffer *slowBuffer = Buffer::New(baton->buffer_out_len);
memcpy(Buffer::Data(slowBuffer), baton->buffer_out, baton->buffer_out_len);
Local<Object> globalObj = Context::GetCurrent()->Global();
Local<Function> bufferConstructor = Local<Function>::Cast(globalObj->Get(String::New("Buffer")));
Handle<Value> constructorArgs[3] = { slowBuffer->handle_, v8::Integer::New(baton->buffer_out_len), v8::Integer::New(0) };
argv[1] = bufferConstructor->NewInstance(3, constructorArgs);
g_free(baton->buffer_out);
}
baton->callback->Call(Context::GetCurrent()->Global(), 2, argv);
@ -207,15 +230,20 @@ void ResizeAsyncAfter(uv_work_t *work, int status) {
delete work;
}
Handle<Value> Resize(const Arguments& args) {
Handle<Value> resize(const Arguments& args) {
HandleScope scope;
ResizeBaton *baton = new ResizeBaton;
baton->src = *String::Utf8Value(args[0]->ToString());
baton->dst = *String::Utf8Value(args[1]->ToString());
baton->cols = args[2]->Int32Value();
baton->rows = args[3]->Int32Value();
Local<String> canvas = args[4]->ToString();
resize_baton *baton = new resize_baton;
baton->file_in = *String::Utf8Value(args[0]->ToString());
if (args[1]->IsObject()) {
Local<Object> buffer = args[1]->ToObject();
baton->buffer_in = Buffer::Data(buffer);
baton->buffer_in_len = Buffer::Length(buffer);
}
baton->file_out = *String::Utf8Value(args[2]->ToString());
baton->width = args[3]->Int32Value();
baton->height = args[4]->Int32Value();
Local<String> canvas = args[5]->ToString();
if (canvas->Equals(String::NewSymbol("c"))) {
baton->crop = true;
} else if (canvas->Equals(String::NewSymbol("w"))) {
@ -225,12 +253,15 @@ Handle<Value> Resize(const Arguments& args) {
baton->crop = false;
baton->embed = 0;
}
baton->callback = Persistent<Function>::New(Local<Function>::Cast(args[5]));
baton->sharpen = args[6]->BooleanValue();
baton->progessive = args[7]->BooleanValue();
baton->access_method = args[8]->BooleanValue() ? VIPS_ACCESS_SEQUENTIAL : VIPS_ACCESS_RANDOM;
baton->callback = Persistent<Function>::New(Local<Function>::Cast(args[9]));
uv_work_t *work = new uv_work_t;
work->data = baton;
uv_queue_work(uv_default_loop(), work, ResizeAsync, (uv_after_work_cb)ResizeAsyncAfter);
return Undefined();
uv_queue_work(uv_default_loop(), work, resize_async, (uv_after_work_cb)resize_async_after);
return scope.Close(Undefined());
}
static void at_exit(void* arg) {
@ -242,7 +273,7 @@ extern "C" void init(Handle<Object> target) {
HandleScope scope;
vips_init("");
AtExit(at_exit);
NODE_SET_METHOD(target, "resize", Resize);
NODE_SET_METHOD(target, "resize", resize);
};
NODE_MODULE(sharp, init);

175
tests/perf.js
View File

@ -1,4 +1,5 @@
var sharp = require("../index");
var fs = require("fs");
var imagemagick = require("imagemagick");
var gm = require("gm");
var epeg = require("epeg");
@ -17,6 +18,7 @@ var height = 480;
async.series({
jpeg: function(callback) {
var inputJpgBuffer = fs.readFileSync(inputJpg);
(new Benchmark.Suite("jpeg")).add("imagemagick", {
defer: true,
fn: function(deferred) {
@ -34,7 +36,7 @@ async.series({
}
});
}
}).add("gm", {
}).add("gm-file-file", {
defer: true,
fn: function(deferred) {
gm(inputJpg).crop(width, height).quality(80).write(outputJpg, function (err) {
@ -45,17 +47,37 @@ async.series({
}
});
}
}).add("epeg", {
}).add("gm-file-buffer", {
defer: true,
fn: function(deferred) {
gm(inputJpg).crop(width, height).quality(80).toBuffer(function (err, buffer) {
if (err) {
throw err;
} else {
assert.notStrictEqual(null, buffer);
deferred.resolve();
}
});
}
}).add("epeg-file-file", {
defer: true,
fn: function(deferred) {
var image = new epeg.Image({path: inputJpg});
image.downsize(width, height, 80).saveTo(outputJpg);
deferred.resolve();
}
}).add("sharp-file", {
}).add("epeg-file-buffer", {
defer: true,
fn: function(deferred) {
sharp.crop(inputJpg, outputJpg, width, height, function(err) {
var image = new epeg.Image({path: inputJpg});
var buffer = image.downsize(width, height, 80).process();
assert.notStrictEqual(null, buffer);
deferred.resolve();
}
}).add("sharp-buffer-file", {
defer: true,
fn: function(deferred) {
sharp.resize(inputJpgBuffer, outputJpg, width, height, function(err) {
if (err) {
throw err;
} else {
@ -63,10 +85,69 @@ async.series({
}
});
}
}).add("sharp-buffer", {
}).add("sharp-buffer-buffer", {
defer: true,
fn: function(deferred) {
sharp.crop(inputJpg, sharp.buffer.jpeg, width, height, function(err, buffer) {
sharp.resize(inputJpgBuffer, sharp.buffer.jpeg, width, height, function(err, buffer) {
if (err) {
throw err;
} else {
assert.notStrictEqual(null, buffer);
deferred.resolve();
}
});
}
}).add("sharp-file-file", {
defer: true,
fn: function(deferred) {
sharp.resize(inputJpg, outputJpg, width, height, function(err) {
if (err) {
throw err;
} else {
deferred.resolve();
}
});
}
}).add("sharp-file-buffer", {
defer: true,
fn: function(deferred) {
sharp.resize(inputJpg, sharp.buffer.jpeg, width, height, 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.resize(inputJpg, sharp.buffer.jpeg, width, height, {sharpen: true}, function(err, buffer) {
if (err) {
throw err;
} else {
assert.notStrictEqual(null, buffer);
deferred.resolve();
}
});
}
}).add("sharp-file-buffer-progressive", {
defer: true,
fn: function(deferred) {
sharp.resize(inputJpg, sharp.buffer.jpeg, width, height, {progressive: true}, function(err, buffer) {
if (err) {
throw err;
} else {
assert.notStrictEqual(null, buffer);
deferred.resolve();
}
});
}
}).add("sharp-file-buffer-sequentialRead", {
defer: true,
fn: function(deferred) {
sharp.resize(inputJpg, sharp.buffer.jpeg, width, height, {sequentialRead: true}, function(err, buffer) {
if (err) {
throw err;
} else {
@ -82,6 +163,7 @@ async.series({
}).run();
},
png: function(callback) {
var inputPngBuffer = fs.readFileSync(inputPng);
(new Benchmark.Suite("png")).add("imagemagick", {
defer: true,
fn: function(deferred) {
@ -98,7 +180,7 @@ async.series({
}
});
}
}).add("gm", {
}).add("gm-file-file", {
defer: true,
fn: function(deferred) {
gm(inputPng).crop(width, height).write(outputPng, function (err) {
@ -109,10 +191,22 @@ async.series({
}
});
}
}).add("sharp-file", {
}).add("gm-file-buffer", {
defer: true,
fn: function(deferred) {
sharp.crop(inputPng, outputPng, width, height, function(err) {
gm(inputPng).crop(width, height).quality(80).toBuffer(function (err, buffer) {
if (err) {
throw err;
} else {
assert.notStrictEqual(null, buffer);
deferred.resolve();
}
});
}
}).add("sharp-buffer-file", {
defer: true,
fn: function(deferred) {
sharp.resize(inputPngBuffer, outputPng, width, height, function(err) {
if (err) {
throw err;
} else {
@ -120,10 +214,69 @@ async.series({
}
});
}
}).add("sharp-buffer", {
}).add("sharp-buffer-buffer", {
defer: true,
fn: function(deferred) {
sharp.crop(inputPng, sharp.buffer.png, width, height, function(err, buffer) {
sharp.resize(inputPngBuffer, sharp.buffer.png, width, height, function(err, buffer) {
if (err) {
throw err;
} else {
assert.notStrictEqual(null, buffer);
deferred.resolve();
}
});
}
}).add("sharp-file-file", {
defer: true,
fn: function(deferred) {
sharp.resize(inputPng, outputPng, width, height, function(err) {
if (err) {
throw err;
} else {
deferred.resolve();
}
});
}
}).add("sharp-file-buffer", {
defer: true,
fn: function(deferred) {
sharp.resize(inputPng, sharp.buffer.png, width, height, 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.resize(inputPng, sharp.buffer.png, width, height, {sharpen: true}, function(err, buffer) {
if (err) {
throw err;
} else {
assert.notStrictEqual(null, buffer);
deferred.resolve();
}
});
}
}).add("sharp-file-buffer-progressive", {
defer: true,
fn: function(deferred) {
sharp.resize(inputPng, sharp.buffer.png, width, height, {progressive: true}, function(err, buffer) {
if (err) {
throw err;
} else {
assert.notStrictEqual(null, buffer);
deferred.resolve();
}
});
}
}).add("sharp-file-buffer-sequentialRead", {
defer: true,
fn: function(deferred) {
sharp.resize(inputPng, sharp.buffer.png, width, height, {sequentialRead: true}, function(err, buffer) {
if (err) {
throw err;
} else {