I'm trying to resize some images with canvas but I'm clueless on how to smoothen them. On photoshop, browsers etc.. there are a few algorithms they use (e.g. bicubic, bilinear) but I don't know if these are built into canvas or not.

Here's my fiddle: http://jsfiddle.net/EWupT/

  var canvas = document.createElement('canvas');
    var ctx = canvas.getContext('2d');
    canvas.width=300
    canvas.height=234
    ctx.drawImage(img, 0, 0, 300, 234);
    document.body.appendChild(canvas);

The first one is a normal resized image tag, and the second one is canvas. Notice how the canvas one is not as smooth. How can I achieve 'smoothness'?

up vote 101 down vote accepted

You can use down-stepping to achieve better results. Most browsers seem to use linear interpolation rather than bi-cubic when resizing images.

(Update There has been added a quality property to the specs, imageSmoothingQuality which is currently available in Chrome only.)

Unless one chooses no smoothing or nearest neighbor the browser will always interpolate the image after down-scaling it as this function as a low-pass filter to avoid aliasing.

Bi-linear uses 2x2 pixels to do the interpolation while bi-cubic uses 4x4 so by doing it in steps you can get close to bi-cubic result while using bi-linear interpolation as seen in the resulting images.

var canvas = document.getElementById("canvas");
var ctx = canvas.getContext("2d");
var img = new Image();

img.onload = function () {

    // set size proportional to image
    canvas.height = canvas.width * (img.height / img.width);

    // step 1 - resize to 50%
    var oc = document.createElement('canvas'),
        octx = oc.getContext('2d');

    oc.width = img.width * 0.5;
    oc.height = img.height * 0.5;
    octx.drawImage(img, 0, 0, oc.width, oc.height);

    // step 2
    octx.drawImage(oc, 0, 0, oc.width * 0.5, oc.height * 0.5);

    // step 3, resize to final size
    ctx.drawImage(oc, 0, 0, oc.width * 0.5, oc.height * 0.5,
    0, 0, canvas.width, canvas.height);
}
img.src = "//i.imgur.com/SHo6Fub.jpg";
<img src="//i.imgur.com/SHo6Fub.jpg" width="300" height="234">
<canvas id="canvas" width=300></canvas>

Depending on how drastic your resize is you can might skip step 2 if the difference is less.

In the demo you can see the new result is now much similar to the image element.

  • 1
    @steve heh, sometimes these things happen :) For images you can usually override this by setting a css BTW. – user1693593 Oct 9 '13 at 3:23
  • Ken, the first result worked great but when I change the images, you can see it being too blurry jsfiddle.net/kcHLG What can be done in this case and others? – steve Oct 9 '13 at 5:27
  • @steve you can reduce the number of steps to just 1 or none (for some images this works fine). See also this answer which is similar to this but here I added a sharpen convolution to it so you can make the resulting image sharper after it has been downscaled. – user1693593 Oct 9 '13 at 5:45
  • 1
    @steve here is an modified fiddle with Bill using only one extra step: jsfiddle.net/AbdiasSoftware/kcHLG/1 – user1693593 Oct 9 '13 at 5:54
  • 1
    @neaumusic the code is a continuation of OPs code. If you open the fiddle you'll see ctx being defined. I have inlined it here to avoid misunderstandings. – user1693593 Nov 3 '17 at 3:47

I created a reusable Angular service to handle high quality resizing of images / canvases for anyone who's interested: https://gist.github.com/transitive-bullshit/37bac5e741eaec60e983

The service includes two solutions because they both have their own pros / cons. The lanczos convolution approach is higher quality at the cost of being slower, whereas the step-wise downscaling approach produces reasonably antialiased results and is significantly faster.

Example usage:

angular.module('demo').controller('ExampleCtrl', function (imageService) {
  // EXAMPLE USAGE
  // NOTE: it's bad practice to access the DOM inside a controller, 
  // but this is just to show the example usage.

  // resize by lanczos-sinc filter
  imageService.resize($('#myimg')[0], 256, 256)
    .then(function (resizedImage) {
      // do something with resized image
    })

  // resize by stepping down image size in increments of 2x
  imageService.resizeStep($('#myimg')[0], 256, 256)
    .then(function (resizedImage) {
      // do something with resized image
    })
})

Since Trung Le Nguyen Nhat's fiddle isn't correct at all (it just uses the original image in the last step)
I wrote my own general fiddle with performance comparison:

FIDDLE

Basically it's:

img.onload = function() {
   var canvas = document.createElement('canvas'),
       ctx = canvas.getContext("2d"),
       oc = document.createElement('canvas'),
       octx = oc.getContext('2d');

   canvas.width = width; // destination canvas size
   canvas.height = canvas.width * img.height / img.width;

   var cur = {
     width: Math.floor(img.width * 0.5),
     height: Math.floor(img.height * 0.5)
   }

   oc.width = cur.width;
   oc.height = cur.height;

   octx.drawImage(img, 0, 0, cur.width, cur.height);

   while (cur.width * 0.5 > width) {
     cur = {
       width: Math.floor(cur.width * 0.5),
       height: Math.floor(cur.height * 0.5)
     };
     octx.drawImage(oc, 0, 0, cur.width * 2, cur.height * 2, 0, 0, cur.width, cur.height);
   }

   ctx.drawImage(oc, 0, 0, cur.width, cur.height, 0, 0, canvas.width, canvas.height);
}
  • Most underrated answer ever seen. – Amsakanna Apr 2 at 17:59

I created a library that allows you to downstep any percentage while keeping all the color data.

https://github.com/danschumann/limby-resize/blob/master/lib/canvas_resize.js

That file you can include in the browser. The results will look like photoshop or image magick, preserving all the color data, averaging pixels, rather than taking nearby ones and dropping others. It doesn't use a formula to guess the averages, it takes the exact average.

  • I would probably use webgl to resize now – Funkodebat Feb 27 '17 at 0:15

Based on K3N answer, I rewrite code generally for anyone wants

var oc = document.createElement('canvas'), octx = oc.getContext('2d');
    oc.width = img.width;
    oc.height = img.height;
    octx.drawImage(img, 0, 0);
    while (oc.width * 0.5 > width) {
       oc.width *= 0.5;
       oc.height *= 0.5;
       octx.drawImage(oc, 0, 0, oc.width, oc.height);
    }
    oc.width = width;
    oc.height = oc.width * img.height / img.width;
    octx.drawImage(img, 0, 0, oc.width, oc.height);

UPDATE JSFIDDLE DEMO

Here is my ONLINE DEMO

  • 2
    This won't work : each time you resize the canvas, it will clear its context. You need 2 canvases. Here it's just the same as directly calling drawImage with the final dimensions. – Kaiido Jun 7 '16 at 11:02
  • This still work. Here is my fiddle jsfiddle.net/7nyaoaff/2 – Trung Le Nguyen Nhat Jun 8 '16 at 3:05

I wrote small js-utility to crop and resize image on front-end. Here is link on GitHub project. Also you can get blob from final image to send it.

import imageSqResizer from './image-square-resizer.js'

let resizer = new imageSqResizer(
    'image-input',
    300,
    (dataUrl) => 
        document.getElementById('image-output').src = dataUrl;
);
//Get blob
let formData = new FormData();
formData.append('files[0]', resizer.blob);

//get dataUrl
document.getElementById('image-output').src = resizer.dataUrl;

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