I have a source rectangle and a destination rectangle. I need to find the maximum scale to which the source can be scaled while fitting within the destination rectangle and maintaining its original aspect ratio.

Google found one way to do it but I'm not sure if it works in all cases. Here is my home-brewed solution:

  • Calculate Height/Width for each rectangle. This gives the slopes of the diagonals msrc and mdest.
  • If msrc < mdst, scale source width to fit the destination width (and scale height by the same ratio)
  • Otherwise, scale source height to fit the destination height (and scale width by the same ratio)

Looking for other possible solutions to this problem. I'm not even sure if my algorithm works in all cases!

5 Answers 5

scale = min(dst.width/src.width, dst.height/src.height)

This is your approach but written more cleanly.

  • 10
    Sweet! Once you have the scale, use these to get the final dimensions: width = src.width * scale and height = src.height * scale
    – fregante
    Sep 12, 2013 at 2:04
  • 9
    Change min with max if you want to cover whole destination area.
    – Glogo
    Jun 17, 2014 at 10:45
  • 18
    Same solution, but with names more clear to me: scale = min(maxWidth/actualWidth, maxHeight/actualHeight), newWidth = actualWidth*scale, newHeight = actualHeight*scale.
    – Peppe L-G
    Aug 6, 2014 at 8:38

Another option might be to scale to maximum width and then check if the scaled height is greater then the maximum allowed height and if so scale by height (or vice versa):

scale = (dst.width / src.width);
if (src.height * scale > dst.height)
 scale = dst.height / src.height;

I think this solution is both shorter, faster and easier to understand.

  • I think you've got the ratio flipped in your third line.
    – tom10
    Sep 3, 2009 at 16:03
  1. Work out the smaller of destWidth / srcWidth and destHeight / srcHeight
  2. Scale by that

edit it's of course the same as your method, with the pieces of the formula moved around. My opinion is that this is clearer semantically, but it's only that - an opinion.


If all dimensions are non-zero, I would use the following code (that essentially matches your code).

scaleFactor = (outerWidth / outerHeight > innerWidth / innerHeight) 
    ? outerHeight / innerHeight
    : outerWidth / innerWidth

This can also be modified to allow any dimension to be zero if required.

  • 3
    I think a rectangle with a zero dimension is called a "line". :P Sep 3, 2009 at 12:47
  • 1
    This solution is mathematically identical to mine: multiply your inequality by (innerHeight * outerHeight / innerWidth) and you get my inequality. The advantage of my code is that if the inequality fails, then the solution need not be recomputed.
    – Guss
    Sep 3, 2009 at 12:50
  • The ternariy operator will evaluate the condition only once, too. And, of course, all solutions should be mathematical equivalent ... or wrong ... Sep 3, 2009 at 13:35
  • The ternary operator will evaluate the condition only once, but by formatting the condition differently part of the calculation of the condition can be one of the answers. Notice that you have always 3 multiplication operations in the computation. My solution has 3 operations in the worst case, otherwise it has only 2 because the correct calculation was already done before the test. Hence, 1/6th better performance (assuming random distribution of values).
    – Guss
    Sep 3, 2009 at 22:20

The other answers suffer from a risk of generating a division by zero exception when either the sourceWidth or sourceHeight becomes zero. To safeguard against this, we should rewrite the comparison into a mathematically equivalent multiple expression. Also, additional edge condition to catch the infinite scale scenario.

Apart from having the scale, I really wanted the dimensions of the target rectangle, so, here I will provide the scale calculation and the target rectangle calculation.

Because of the infinity edge condition, I think the target rectangle will be more robust / useful:

    if (sourceWidth == 0 && sourceHeight == 0) {
        // scale = Infinity;
        outputWidth = 0;
        outputHeight = 0;
        outputX = destWidth / 2;
        outputY = destHeight / 2;
    } else if (destWidth * sourceHeight > destHeight * sourceWidth) {
        scale = destHeight / sourceHeight;
        outputWidth = sourceWidth * destHeight / sourceHeight;
        outputHeight = destHeight;
        outputX = (destWidth - outputWidth) / 2;
        outputY = 0;
    } else {
        scale = destWidth / sourceWidth;
        outputWidth = destWidth;
        outputHeight = sourceHeight * destWidth / sourceWidth;
        outputX = 0;
        outputY = (destHeight - outputHeight) / 2;

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