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I'm trying to create a thumbnail image on the client side using javascript and a canvas element, but when I shrink the image down, it looks terrible. It looks as if it was downsized in photoshop with the resampling set to 'Nearest Neighbor' instead of Bicubic. I know its possible to get this to look right, because this site can do it just fine using a canvas as well. I've tried using the same code they do as shown in the "[Source]" link, but it still looks terrible. Is there something I'm missing, some setting that needs to be set or something?

EDIT:

I'm trying to resize a jpg. I have tried resizing the same jpg on the linked site and in photoshop, and it looks fine when downsized.

Here is the relevant code:

reader.onloadend = function(e)
{
    var img = new Image();
    var ctx = canvas.getContext("2d");
    var canvasCopy = document.createElement("canvas");
    var copyContext = canvasCopy.getContext("2d");

    img.onload = function()
    {
        var ratio = 1;

        if(img.width > maxWidth)
            ratio = maxWidth / img.width;
        else if(img.height > maxHeight)
            ratio = maxHeight / img.height;

        canvasCopy.width = img.width;
        canvasCopy.height = img.height;
        copyContext.drawImage(img, 0, 0);

        canvas.width = img.width * ratio;
        canvas.height = img.height * ratio;
        ctx.drawImage(canvasCopy, 0, 0, canvasCopy.width, canvasCopy.height, 0, 0, canvas.width, canvas.height);
    };

    img.src = reader.result;
}

EDIT2:

Seems I was mistaken, the linked website wasn't doing any better of a job of downsizing the image. I tried the other methods suggested and none of them look any better. This is what the different methods resulted in:

Photoshop:

alt text

Canvas:

alt text

Image with image-rendering: optimizeQuality set and scaled with width/height:

alt text

Image with image-rendering: optimizeQuality set and scaled with -moz-transform:

alt text

Canvas resize on pixastic:

alt text

I guess this means firefox isn't using bicubic sampling like its supposed to. I'll just have to wait until they actually add it.

EDIT3:

Original Image

share|improve this question
    
Can you post the code you're using to resize the image? –  Xavi Feb 20 '10 at 21:13
    
Are you trying to resize a GIF image or similar image with a limited palette? Even in photoshop these images don't scale down well unless you convert them to RGB. –  leepowers Feb 20 '10 at 21:43
    
Can you post a copy of the original image? –  Xavi Feb 23 '10 at 1:31
    
Resizing the image using javascript is a bit kludge - not only are you using client processing power to resize the image, you are doing it on every single page load. Why not just save a downscaled version from photoshop and serve it instead/in tandem with the original image? –  defines Mar 5 '10 at 14:57
10  
Because I'm making an image uploader with the capability to resize and crop the images before uploading them. –  Telanor Mar 8 '10 at 16:51

14 Answers 14

up vote 247 down vote accepted

So what do you do if all the browsers (actually, Chrome 5 gave me quite good one) won't give you good enough resampling quality? You implement them yourself then! Oh come on, we're entering the new age of Web 3.0, HTML5 compliant browsers, super optimized JIT javascript compilers, multi-core(†) machines, with tons of memory, what are you afraid of? Hey, there's the word java in javascript, so that should guarantee the performance, right? Behold, the thumbnail generating code:

//returns a function that calculates lanczos weight
function lanczosCreate(lobes){
  return function(x){
    if (x > lobes) 
      return 0;
    x *= Math.PI;
    if (Math.abs(x) < 1e-16) 
      return 1
    var xx = x / lobes;
    return Math.sin(x) * Math.sin(xx) / x / xx;
  }
}

//elem: canvas element, img: image element, sx: scaled width, lobes: kernel radius
function thumbnailer(elem, img, sx, lobes){ 
    this.canvas = elem;
    elem.width = img.width;
    elem.height = img.height;
    elem.style.display = "none";
    this.ctx = elem.getContext("2d");
    this.ctx.drawImage(img, 0, 0);
    this.img = img;
    this.src = this.ctx.getImageData(0, 0, img.width, img.height);
    this.dest = {
        width: sx,
        height: Math.round(img.height * sx / img.width),
    };
    this.dest.data = new Array(this.dest.width * this.dest.height * 3);
    this.lanczos = lanczosCreate(lobes);
    this.ratio = img.width / sx;
    this.rcp_ratio = 2 / this.ratio;
    this.range2 = Math.ceil(this.ratio * lobes / 2);
    this.cacheLanc = {};
    this.center = {};
    this.icenter = {};
    setTimeout(this.process1, 0, this, 0);
}

thumbnailer.prototype.process1 = function(self, u){
    self.center.x = (u + 0.5) * self.ratio;
    self.icenter.x = Math.floor(self.center.x);
    for (var v = 0; v < self.dest.height; v++) {
        self.center.y = (v + 0.5) * self.ratio;
        self.icenter.y = Math.floor(self.center.y);
        var a, r, g, b;
        a = r = g = b = 0;
        for (var i = self.icenter.x - self.range2; i <= self.icenter.x + self.range2; i++) {
            if (i < 0 || i >= self.src.width) 
                continue;
            var f_x = Math.floor(1000 * Math.abs(i - self.center.x));
            if (!self.cacheLanc[f_x]) 
                self.cacheLanc[f_x] = {};
            for (var j = self.icenter.y - self.range2; j <= self.icenter.y + self.range2; j++) {
                if (j < 0 || j >= self.src.height) 
                    continue;
                var f_y = Math.floor(1000 * Math.abs(j - self.center.y));
                if (self.cacheLanc[f_x][f_y] == undefined) 
                    self.cacheLanc[f_x][f_y] = self.lanczos(Math.sqrt(Math.pow(f_x * self.rcp_ratio, 2) + Math.pow(f_y * self.rcp_ratio, 2)) / 1000);
                weight = self.cacheLanc[f_x][f_y];
                if (weight > 0) {
                    var idx = (j * self.src.width + i) * 4;
                    a += weight;
                    r += weight * self.src.data[idx];
                    g += weight * self.src.data[idx + 1];
                    b += weight * self.src.data[idx + 2];
                }
            }
        }
        var idx = (v * self.dest.width + u) * 3;
        self.dest.data[idx] = r / a;
        self.dest.data[idx + 1] = g / a;
        self.dest.data[idx + 2] = b / a;
    }

    if (++u < self.dest.width) 
        setTimeout(self.process1, 0, self, u);
    else 
        setTimeout(self.process2, 0, self);
};
thumbnailer.prototype.process2 = function(self){
    self.canvas.width = self.dest.width;
    self.canvas.height = self.dest.height;
    self.ctx.drawImage(self.img, 0, 0);
    self.src = self.ctx.getImageData(0, 0, self.dest.width, self.dest.height);
    var idx, idx2;
    for (var i = 0; i < self.dest.width; i++) {
        for (var j = 0; j < self.dest.height; j++) {
            idx = (j * self.dest.width + i) * 3;
            idx2 = (j * self.dest.width + i) * 4;
            self.src.data[idx2] = self.dest.data[idx];
            self.src.data[idx2 + 1] = self.dest.data[idx + 1];
            self.src.data[idx2 + 2] = self.dest.data[idx + 2];
        }
    }
    self.ctx.putImageData(self.src, 0, 0);
    self.canvas.style.display = "block";
}

...with which you can produce results like these!

img717.imageshack.us/img717/8910/lanczos358.png

so anyway, here is a 'fixed' version of your example:

img.onload = function() {
  var canvas = document.createElement("canvas");
  new thumbnailer(canvas, img, 188, 3); //this produces lanczos3
  //but feel free to raise it up to 8. Your client will appreciate
  //that the program makes full use of his machine.
  document.body.appendChild(canvas);
}

Now it's time to pit your best browsers out there and see which one will least likely increase your client's blood pressure!

Umm, where's my sarcasm tag?

(since many parts of the code is based on aggen.sourceforge.net is it also covered under GPL2? I dunno)

actually due to limitation of javascript, multi-core is not supported.

share|improve this answer
1  
I had actually tried implementing it myself, doing as you did, copying code from an open source image editor. Since I wasn't able to find any solid documentation on the algorithm I had a hard time optimizing it. In the end, mine was kind of slow (took a few seconds to resize the image). When I get the chance, I'll try yours out and see if its any faster. And I think webworkers make multi-core javascript possible now. I was going to try using them to speed it up, but I was having trouble figuring out how to make this into a multithreaded algorithm –  Telanor Jul 11 '10 at 22:52
2  
Sorry, forgot that! I've edited the reply. It's not going to be fast anyways, bicubic should be faster. Not to mention the algorithm I used is not the usual 2-way resizing (which is line by line, horizontal then vertical), so it's a looot slower. –  syockit Jul 16 '10 at 16:33
1  
of course, you shouldn't use this code as it is in production app, because the thumbnailer object is never reused and thus will cause memory leak. Please think up of a proper destructor. –  syockit Apr 17 '11 at 13:18
7  
Awesome answer :) –  Michael Mior Aug 11 '11 at 14:13
2  
You are awesome and deserve tons of awesomeage. –  LachlanB Feb 2 '13 at 4:05

I know this is an old thread but it might be useful for some people such as myself that months after are hitting this issue for the first time.

Here is some code that resizes the image every time you reload the image. I am aware this is not optimal at all, but I provide it as a proof of concept.

Also, sorry for using jQuery for simple selectors but I just feel too comfortable with the syntax.

$(document).on('ready', createImage);
$(window).on('resize', createImage);

var createImage = function(){
    var canvas = document.getElementById('myCanvas');
    canvas.width = window.innerWidth || $(window).width();
    canvas.height = window.innerHeight || $(window).height();
    var ctx = canvas.getContext('2d');
    img = new Image();
    img.addEventListener('load', function () {
        ctx.drawImage(this, 0, 0, w, h);
    });
    img.src = 'http://www.ruinvalor.com/Telanor/images/original.jpg';
};

My createImage function is called once when the document is loaded and after that it is called every time the window receives a resize event.

Here is the CSS, BTW:

            html, body{
            height: 100%;
            width: 100%;
            margin: 0;
            padding: 0;
            background: #000;
        }
        canvas{
            position: absolute;
            left: 0;
            top: 0;
            z-index: 0;
        }

And here is the HTML:

<html>
    <head>
        <meta charset="utf-8" />
        <title>Canvas Resize</title>
    </head>
    <body>
    <canvas id="myCanvas"></canvas>
    </body>
</html>

I tested it in Chrome 6 and Firefox 3.6, both on the Mac. This "technique" eats processor as it if was ice cream in the summer, but it does the trick.

share|improve this answer

Fast image resize/resample algorithm using Hermite filter with JavaScript. Support transparency, gives good quality. Preview: (done in 0.051s).

enter image description here

Web workers version with multi-threading included in link below, but for now they (or code) are slower.

Edit: i tried to optimize web workers with multi-threading, results: about 30% smaller time when using PC with 4 CPU cores, 0% gain using 2 cores, and almost 100% loss using 1 core. Result: i stoped working on that, unless problems below will be fixed.

There are 2 main problems with multi-threading:
1. shared memory (aka transferable objects - worker.postMessage(var, [var]) do not work with images and return nice response: Error: DataCloneError: The object could not be cloned. 2. There are no stable ways find count of CPU cores with JS.

Git: https://github.com/viliusle/Hermite-resize
Demo: http://viliusle.github.io/miniPaint/

function resample_hermite(canvas, W, H, W2, H2){
    var time1 = Date.now();
    var img = canvas.getContext("2d").getImageData(0, 0, W, H);
    var img2 = canvas.getContext("2d").getImageData(0, 0, W2, H2);
    var data = img.data;
    var data2 = img2.data;
    var ratio_w = W / W2;
    var ratio_h = H / H2;
    var ratio_w_half = Math.ceil(ratio_w/2);
    var ratio_h_half = Math.ceil(ratio_h/2);

    for(var j = 0; j < H2; j++){
        for(var i = 0; i < W2; i++){
            var x2 = (i + j*W2) * 4;
            var weight = 0;
            var weights = 0;
            var weights_alpha = 0;
            var gx_r = gx_g = gx_b = gx_a = 0;
            var center_y = (j + 0.5) * ratio_h;
            for(var yy = Math.floor(j * ratio_h); yy < (j + 1) * ratio_h; yy++){
                var dy = Math.abs(center_y - (yy + 0.5)) / ratio_h_half;
                var center_x = (i + 0.5) * ratio_w;
                var w0 = dy*dy //pre-calc part of w
                for(var xx = Math.floor(i * ratio_w); xx < (i + 1) * ratio_w; xx++){
                    var dx = Math.abs(center_x - (xx + 0.5)) / ratio_w_half;
                    var w = Math.sqrt(w0 + dx*dx);
                    if(w >= -1 && w <= 1){
                        //hermite filter
                        weight = 2 * w*w*w - 3*w*w + 1;
                        if(weight > 0){
                            dx = 4*(xx + yy*W);
                            //alpha
                            gx_a += weight * data[dx + 3];
                            weights_alpha += weight;
                            //colors
                            if(data[dx + 3] < 255)
                                weight = weight * data[dx + 3] / 250;
                            gx_r += weight * data[dx];
                            gx_g += weight * data[dx + 1];
                            gx_b += weight * data[dx + 2];
                            weights += weight;
                            }
                        }
                    }       
                }
            data2[x2]     = gx_r / weights;
            data2[x2 + 1] = gx_g / weights;
            data2[x2 + 2] = gx_b / weights;
            data2[x2 + 3] = gx_a / weights_alpha;
            }
        }
    console.log("hermite = "+(Math.round(Date.now() - time1)/1000)+" s");
    canvas.getContext("2d").clearRect(0, 0, Math.max(W, W2), Math.max(H, H2));
    canvas.getContext("2d").putImageData(img2, 0, 0);
}
share|improve this answer
    
Maybe you can include links to your miniPaint demo and Github repo? –  syockit Sep 11 '13 at 13:45
1  
Will you also share the webworkers version as well? Probably due to setup overhead, it's slower for small images, but it could be useful for larger source images. –  syockit Sep 11 '13 at 13:50
    
added demo, git links, also multi-core version. Btw i did not spend too much time on optimizing multicore version... Single version i believe is optimized well. –  ViliusL Sep 11 '13 at 18:47
    
Huge difference and decent performance. Thank you very much! before and after –  KevBurnsJr Sep 12 '13 at 6:56
1  
@ViliusL Ah now I remembered why web workers didn't work so well. They didn't have shared memory before, and still doesn't have it now! Maybe someday when they manage to sort it out, your code will come to use (that, or maybe people use PNaCl instead) –  syockit Nov 16 '13 at 9:06

If you're simply trying to resize an image, I'd recommend setting width and height of the image with CSS. Here's a quick example:

.small-image {
    width: 100px;
    height: 100px;
}

Note that the height and width can also be set using JavaScript. Here's quick code sample:

var img = document.getElement("my-image");
img.style.width = 100 + "px";  // Make sure you add the "px" to the end,
img.style.height = 100 + "px"; // otherwise you'll confuse IE

Also, to ensure that the resized image looks good, add the following css rules to image selector:

As far as I can tell, all browsers except IE using an bicubic algorithm to resize images by default, so your resized images should look good in Firefox and Chrome.

If setting the css width and height doesn't work, you may want to play with a css transform:

If for whatever reason you need to use a canvas, please note that there are two ways an image can be resize: by resizing the canvas with css or by drawing the image at a smaller size.

See this question for more details.

Hope this helps!

share|improve this answer
5  
Neither resizing the canvas nor drawing the image at a smaller size resolves the problem (in Chrome), sadly. –  Nestor Mar 21 '11 at 1:23
    
Chrome 27 produces nice resized image, but you can't copy the result to a canvas; attempting to do so will copy the original image instead. –  syockit Jul 7 '13 at 12:52

I'd highly suggest you check out this link and make sure it is set to true.

Controlling image scaling behavior

Introduced in Gecko 1.9.2 (Firefox 3.6 / Thunderbird 3.1 / Fennec 1.0)

Gecko 1.9.2 introduced the mozImageSmoothingEnabled property to the canvas element; if this Boolean value is false, images won't be smoothed when scaled. This property is true by default. view plainprint?

  1. cx.mozImageSmoothingEnabled = false;
share|improve this answer
    
Yup, its set to true –  Telanor Jul 14 '10 at 4:58

I've put up some algorithms to do image interpolation on html canvas pixel arrays that might be useful here:

http://jsperf.com/pixel-interpolation/2

These can be copy/pasted and can be used inside of web workers to resize images (or any other operation that requires interpolation - I'm using them to defish images at the moment).

I haven't added the lanczos stuff above, so feel free to add that as a comparison if you'd like.

share|improve this answer

For resizing to image with width less that original, i use:

    function resize2(i) {
      var cc = document.createElement("canvas");
      cc.width = i.width / 2;
      cc.height = i.height / 2;
      var ctx = cc.getContext("2d");
      ctx.drawImage(i, 0, 0, cc.width, cc.height);
      return cc;
    }
    var cc = img;
    while (cc.width > 64 * 2) {
      cc = resize2(cc);
    }
    // .. than drawImage(cc, .... )

and it works =).

share|improve this answer

This is a javascript function adapted from @Telanor's code. When passing a image base64 as first argument to the function, it returns the base64 of the resized image. maxWidth and maxHeight are optional.

function thumbnail(base64, maxWidth, maxHeight) {

  // Max size for thumbnail
  if(typeof(maxWidth) === 'undefined') var maxWidth = 500;
  if(typeof(maxHeight) === 'undefined') var maxHeight = 500;

  // Create and initialize two canvas
  var canvas = document.createElement("canvas");
  var ctx = canvas.getContext("2d");
  var canvasCopy = document.createElement("canvas");
  var copyContext = canvasCopy.getContext("2d");

  // Create original image
  var img = new Image();
  img.src = base64;

  // Determine new ratio based on max size
  var ratio = 1;
  if(img.width > maxWidth)
    ratio = maxWidth / img.width;
  else if(img.height > maxHeight)
    ratio = maxHeight / img.height;

  // Draw original image in second canvas
  canvasCopy.width = img.width;
  canvasCopy.height = img.height;
  copyContext.drawImage(img, 0, 0);

  // Copy and resize second canvas to first canvas
  canvas.width = img.width * ratio;
  canvas.height = img.height * ratio;
  ctx.drawImage(canvasCopy, 0, 0, canvasCopy.width, canvasCopy.height, 0, 0, canvas.width, canvas.height);

  return canvas.toDataURL();

}
share|improve this answer
    
your approach is very fast but it produces a fuzzy image as you can see here: stackoverflow.com/questions/18922880/… –  confile Sep 23 '13 at 12:58

So something interesting that I found a while ago while working with canvas that might be helpful:

To resize the canvas control on its own, you need to use the height="" and width="" attributes (or canvas.width/canvas.height elements). If you use CSS to resize the canvas, it will actually stretch (i.e.: resize) the content of the canvas to fit the full canvas (rather than simply increasing or decreasing the area of the canvas.

It'd be worth a shot to try drawing the image into a canvas control with the height and width attributes set to the size of the image and then using CSS to resize the canvas to the size you're looking for. Perhaps this would use a different resizing algorithm.

It should also be noted that canvas has different effects in different browsers (and even different versions of different browsers). The algorithms and techniques used in the browsers is likely to change over time (especially with Firefox 4 and Chrome 6 coming out so soon, which will place heavy emphasis on canvas rendering performance).

In addition, you may want to give SVG a shot, too, as it likely uses a different algorithm as well.

Best of luck!

share|improve this answer
1  
Setting the width or height of a canvas via the HTML attributes causes the canvas to be cleared, so there cant be any resizing done with that method. Also, SVG is meant for dealing with mathematical images. I need to be able to draw PNGs and such, so that wont help me out there. –  Telanor Jul 6 '10 at 20:42
    
Setting the height & width of the canvas and resizing using CSS doesn't help, I've found (in Chrome). Even doing the resize using -webkit-transform rather than CSS width/height doesn't get the interpolation going. –  Nestor Mar 21 '11 at 1:20

Heya, i got this image by right clicking the canvas element in firefox and saving as.

alt text

var img = new Image();
img.onload = function () {
    console.debug(this.width,this.height);
    var canvas = document.createElement('canvas'), ctx;
    canvas.width = 188;
    canvas.height = 150;
    document.body.appendChild(canvas);
    ctx = canvas.getContext('2d');
    ctx.drawImage(img,0,0,188,150);
};
img.src = 'original.jpg';

so anyway, here is a 'fixed' version of your example:

var img = new Image();
// added cause it wasnt defined
var canvas = document.createElement("canvas");
document.body.appendChild(canvas);

var ctx = canvas.getContext("2d");
var canvasCopy = document.createElement("canvas");
// adding it to the body

document.body.appendChild(canvasCopy);

var copyContext = canvasCopy.getContext("2d");

img.onload = function()
{
        var ratio = 1;

        // defining cause it wasnt
        var maxWidth = 188,
            maxHeight = 150;

        if(img.width > maxWidth)
                ratio = maxWidth / img.width;
        else if(img.height > maxHeight)
                ratio = maxHeight / img.height;

        canvasCopy.width = img.width;
        canvasCopy.height = img.height;
        copyContext.drawImage(img, 0, 0);

        canvas.width = img.width * ratio;
        canvas.height = img.height * ratio;
        // the line to change
        // ctx.drawImage(canvasCopy, 0, 0, canvasCopy.width, canvasCopy.height, 0, 0, canvas.width, canvas.height);
        // the method signature you are using is for slicing
        ctx.drawImage(canvasCopy, 0, 0, canvas.width, canvas.height);
};

// changed for example
img.src = 'original.jpg';
share|improve this answer
    
I've tried doing what you did and its not coming out nice like yours. Unless I missed something, the only change you made was to use the scaling method signature instead of the slicing one, right? For some reason its not working for me. –  Telanor Mar 14 '10 at 21:11

I just ran a page of side by sides comparisons and unless something has changed recently, I could see no better downsizing (scaling) using canvas vs. simple css. I tested in FF6 Mac OSX 10.7. Still slightly soft vs. the original.

I did however stumble upon something that did make a huge difference and that was using image filters in browsers that support canvas. You can actually manipulate images much like you can in Photoshop with blur, sharpen, saturation, ripple, grayscale, etc.

I then found an awesome jQuery plug-in which makes application of these filters a snap: http://codecanyon.net/item/jsmanipulate-jquery-image-manipulation-plugin/428234

I simply apply the sharpen filter right after resizing the image which should give you the desired effect. I didn't even have to use a canvas element.

share|improve this answer

Opacity fixed, unrolled all for performance. JsFiddle

share|improve this answer

Thanks @syockit for an awesome answer. however, I had to reformat a little as follows to make it work. Perhaps due to DOM scanning issues:

$(document).ready(function () {

$('img').on("load", clickA);
function clickA() {
    var img = this;
    var canvas = document.createElement("canvas");
    new thumbnailer(canvas, img, 50, 3);
    document.body.appendChild(canvas);
}

function thumbnailer(elem, img, sx, lobes) {
    this.canvas = elem;
    elem.width = img.width;
    elem.height = img.height;
    elem.style.display = "none";
    this.ctx = elem.getContext("2d");
    this.ctx.drawImage(img, 0, 0);
    this.img = img;
    this.src = this.ctx.getImageData(0, 0, img.width, img.height);
    this.dest = {
        width: sx,
        height: Math.round(img.height * sx / img.width),
    };
    this.dest.data = new Array(this.dest.width * this.dest.height * 3);
    this.lanczos = lanczosCreate(lobes);
    this.ratio = img.width / sx;
    this.rcp_ratio = 2 / this.ratio;
    this.range2 = Math.ceil(this.ratio * lobes / 2);
    this.cacheLanc = {};
    this.center = {};
    this.icenter = {};
    setTimeout(process1, 0, this, 0);
}

//returns a function that calculates lanczos weight
function lanczosCreate(lobes) {
    return function (x) {
        if (x > lobes)
            return 0;
        x *= Math.PI;
        if (Math.abs(x) < 1e-16)
            return 1
        var xx = x / lobes;
        return Math.sin(x) * Math.sin(xx) / x / xx;
    }
}

process1 = function (self, u) {
    self.center.x = (u + 0.5) * self.ratio;
    self.icenter.x = Math.floor(self.center.x);
    for (var v = 0; v < self.dest.height; v++) {
        self.center.y = (v + 0.5) * self.ratio;
        self.icenter.y = Math.floor(self.center.y);
        var a, r, g, b;
        a = r = g = b = 0;
        for (var i = self.icenter.x - self.range2; i <= self.icenter.x + self.range2; i++) {
            if (i < 0 || i >= self.src.width)
                continue;
            var f_x = Math.floor(1000 * Math.abs(i - self.center.x));
            if (!self.cacheLanc[f_x])
                self.cacheLanc[f_x] = {};
            for (var j = self.icenter.y - self.range2; j <= self.icenter.y + self.range2; j++) {
                if (j < 0 || j >= self.src.height)
                    continue;
                var f_y = Math.floor(1000 * Math.abs(j - self.center.y));
                if (self.cacheLanc[f_x][f_y] == undefined)
                    self.cacheLanc[f_x][f_y] = self.lanczos(Math.sqrt(Math.pow(f_x * self.rcp_ratio, 2) + Math.pow(f_y * self.rcp_ratio, 2)) / 1000);
                weight = self.cacheLanc[f_x][f_y];
                if (weight > 0) {
                    var idx = (j * self.src.width + i) * 4;
                    a += weight;
                    r += weight * self.src.data[idx];
                    g += weight * self.src.data[idx + 1];
                    b += weight * self.src.data[idx + 2];
                }
            }
        }
        var idx = (v * self.dest.width + u) * 3;
        self.dest.data[idx] = r / a;
        self.dest.data[idx + 1] = g / a;
        self.dest.data[idx + 2] = b / a;
    }

    if (++u < self.dest.width)
        setTimeout(process1, 0, self, u);
    else
        setTimeout(process2, 0, self);
};

process2 = function (self) {
    self.canvas.width = self.dest.width;
    self.canvas.height = self.dest.height;
    self.ctx.drawImage(self.img, 0, 0);
    self.src = self.ctx.getImageData(0, 0, self.dest.width, self.dest.height);
    var idx, idx2;
    for (var i = 0; i < self.dest.width; i++) {
        for (var j = 0; j < self.dest.height; j++) {
            idx = (j * self.dest.width + i) * 3;
            idx2 = (j * self.dest.width + i) * 4;
            self.src.data[idx2] = self.dest.data[idx];
            self.src.data[idx2 + 1] = self.dest.data[idx + 1];
            self.src.data[idx2 + 2] = self.dest.data[idx + 2];
        }
    }
    self.ctx.putImageData(self.src, 0, 0);
    self.canvas.style.display = "block";
}

});

share|improve this answer

Here is also a great solution which does not loose quality.

HTML5 Canvas Resize (Downscale) Image High Quality?

share|improve this answer

protected by NullPoiиteя Jun 23 '13 at 10:13

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