# How to “smart resize” a displayed image to original aspect ratio

I have an application in which end-users can size and position images in a designer. Since the spec calls for the image to be "stretched" to the containing control, the end user can end up with an awkwardly stretched image.

To help the user with image sizing I am thinking of implementing a smart resizer function which would allow the the user to easily fix the aspect ratio of the picture so that it no longer appears stretched.

The quick way to solve this is to actually provide two options: 1) scale from width 2) scale from height. The user chooses the method and the algorithm adjusts the size of the picture by using the original aspect ratio. For example: A picture is displayed as 200x200 on the designer but the original image is 1024x768 pixels. The user chooses "Smart Size from width" and the new size becomes ~200x150 since the original aspect ratio is ~1.333

That's OK, but how could I make the algorithm smarter and not bother the user by asking which dimension the recalculation should be based on?

-

If I'm interpreting your spec correctly, you want a result that is no larger than the one the end-user laid out originally; you want one of the two dimensions to shrink, and the other to stay the same.

``````original_ratio = original_width / original_height
designer_ratio = designer_width / designer_height
if original_ratio > designer_ratio
designer_height = designer_width / original_ratio
else
designer_width = designer_height * original_ratio
``````
-
Yes, the spec needs to be extended to define what smart resizing actually does. This algorithm sounds reasonable. I'll try it. –  Paul Sasik Jun 9 '10 at 19:15

Here's a solution I came up with when having to deal with this problem. Turned out pretty short and straightforward imo, just wanted to share it.

Handy "formulas": `ratio = W / H` => `W = H * ratio` => `H = W / ratio`

1. Calculate the ratio
2. Calucate the height of the image if you would set the width to the newSize width (maximum allowed width)
3. Calucate the width of the image if you would set the height to the newSize height (maximum allowed height)
4. See which of the two sizes does not override the maxsize in any dimension. If the ratio is not 1 one of them will always be wrong and one will always be correct.

In `Javascript`

``````// Returns array with new width and height
function proportionalScale(originalSize, newSize)
{
var ratio = originalSize[0] / originalSize[1];

var maximizedToWidth = [newSize[0], newSize[0] / ratio];
var maximizedToHeight = [newSize[1] * ratio, newSize[1]];

if(maximizedToWidth[1] > newSize[1]) { return maximizedToHeight; }
else { return maximizedToWidth; }
}
``````

originalSize and newSize is an array [0] = width [1] = height

-

Took the suggestion above and made it scale up/down within max height / width. Here the python code for it and also added support for rotating things while keeping within limites:

def _resize(image, dimensions, rotate=None): """ Resizes an image to be as close as possible to specified dimensions. Image is a django image-model-field.

``````    Will both scale up and down the image to meet this while keeping the proportions
in width and height

"""

if image and os.path.isfile(image.path):

im = pil.open(image.path)
logging.debug('resizing image from %s x %s --> %s x %s ' % (im.size[0], im.size[1], dimensions[0], dimensions[1]))

if rotate:
logging.debug('first rotating image %s' % rotate)
im = im.rotate(90)

srcWidth = Decimal(im.size[0])
srcHeight = Decimal(im.size[1])

resizeWidth = srcWidth
resizeHeight = srcHeight

aspect = resizeWidth / resizeHeight # Decimal

logging.debug('resize aspect is %s' % aspect)

if resizeWidth > dimensions[0] or resizeHeight > dimensions[1]:
# if width or height is bigger we need to shrink things
if resizeWidth > dimensions[0]:
resizeWidth = Decimal(dimensions[0])
resizeHeight = resizeWidth / aspect

if resizeHeight > dimensions[1] :
aspect = resizeWidth / resizeHeight
resizeHeight = Decimal(dimensions[1])
resizeWidth = resizeHeight * aspect

else:
# if both width and height are smaller we need to increase size
if resizeWidth < dimensions[0]:
resizeWidth = Decimal(dimensions[0])
resizeHeight = resizeWidth / aspect

if resizeHeight > dimensions[1] :
aspect = resizeWidth / resizeHeight
resizeHeight = Decimal(dimensions[1])
resizeWidth = resizeHeight * aspect

im = im.resize((resizeWidth, resizeHeight), pil.ANTIALIAS)

logging.debug('resized image to %s %s' % im.size)
im.save(image.path)

else:
# no action, due to no image or no image in path
pass

return image
``````
-

Because you want to maximize showing as much as possible the scaled image (of the original) in your window, i.e. the area in your designer, you would take the larger of either the width or height of the original image, and scale that to 200. Pseudo-code (width, height are dimensions of original):

``````if (width > height) {
scaledWidth = 200;
scaledHeight = (height * 200) / width;
} else {
scaledHeight = 200;
scaledWidth = (width * 200) / height;
}
``````
-
No. I want the image to be as close in size to what the user laid out as much as possible. In the end, one of the dimensions would remain unchanged. –  Paul Sasik Jun 9 '10 at 18:50

Calculate the new dimensions for both variants ("scale by width" and "scale by height"), then use the one that fits in the display.

Alternatively you could also calculate the the aspect ratio of the "bounding box" and compare it against the aspect ratio of the original image. Depending on which aspect ratio is larger, the height or the width needs to be scaled.

You also could restrict the resize process so that in all cases "scale by width" is done. Then, to change the size of the image, the user always has to change its width. The height will always be adjusted automatically.

-
I was thinking along those lines but how do yhou determine what is too wide or too tall when the user can arbitrarily size and place the image? –  Paul Sasik Jun 9 '10 at 18:45
@Paul: Isn't it restricted to 200x200? Where does the current smart-size function get its limits from? –  sth Jun 9 '10 at 18:50
we're getting close. The limits are implicitly set by the user by manipulating the images size. See my reply to khnle below. –  Paul Sasik Jun 9 '10 at 18:53
So if the user resized the image, can you take the new limits created by that and test which of both resize methods will work for these limits? (Additionally I edited some more ideas into my answer..) –  sth Jun 9 '10 at 19:15

There's no accounting for the amount of copy and pasters out there eh! I also wanted to know this and all I saw were endless examples of scaling width OR height.. who would want the other overflowing?!

• Resize width AND height without the need for a loop
• Doesn't exceed the images original dimensions
• Uses maths that works properly i.e width/aspect for height, and height*aspect for width so images are actually scaled properly up and down :/

//////////////

``````private void ResizeImage(Image img, double maxWidth, double maxHeight)
{
double srcWidth = img.Source.Width;
double srcHeight = img.Source.Height;

double resizeWidth = srcWidth;
double resizeHeight = srcHeight;

double aspect = resizeWidth / resizeHeight;

if (resizeWidth > maxWidth)
{
resizeWidth = maxWidth;
resizeHeight = resizeWidth / aspect;
}
if (resizeHeight > maxHeight)
{
aspect = resizeWidth / resizeHeight;
resizeHeight = maxHeight;
resizeWidth = resizeHeight * aspect;
}

img.Width = resizeWidth;
img.Height = resizeHeight;
}
``````
-
pretty good, apart from when you do ResizeImage(i,2000,3000) –  Christopher Thomas Mar 18 '13 at 14:19

You just need to work out the scale needed for both dimensions and then take the smaller of the 2.

-

here is my solution,

a = aspect sw = original image width sh = original image height dw = requested max width dh = requested max height

sw and sh will contain the final resized values

code is PHP:

``````\$a = \$sw / \$sh;

if(\$a > 1){
//  wider image
if(\$sw != \$dw){
\$rt = \$dw / \$sw;
\$sw = \$sw * \$rt;
\$sh = \$sh * \$rt;
}

if(\$sh > \$dh){
\$rt = \$dh / \$sh;
\$sw = \$sw * \$rt;
\$sh = \$sh * \$rt;
}
}else{
//  taller image
if(\$sh != \$dh){
\$rt = \$dh / \$sh;
\$sh = \$sh * \$rt;
\$sw = \$sw * \$rt;
}

if(\$sw > \$dw){
\$rt = \$dw / \$sw;
\$sh = \$sh * \$rt;
\$sw = \$sw * \$rt;
}
}
``````
-