# Fit a rectangle into another rectangle

I'm frequently fitting one rectangle into another so that it fits nicely and is centered. I would draw something on the whiteboard and take a picture of what the logic is but it's getting dark and candle light makes it not as fun to do.

Anyway, it's quite straightforward and easy to understand. Here is the function I just had to write out from scratch again (this time in PHP):

``````// Fit rectangle 2 into rectangle 1 to get rectangle 3
// Rectangle 3 must be centered
// Return dimensions of rectangle and position relative to rectangle 1

function fitrect(\$w1,\$h1,\$w2,\$h2){

// Let's take a chance with rectangle 3 width being equal to rectangle 1 width
\$w3=\$w1;
\$h3=\$w3*(\$h2/\$w2);

// Check if height breaks rectangle 1 height
if(\$h3>\$h1){
// Recalculate dimensions and then position
\$h3=\$h1;
\$w3=\$h3*(\$w2/\$h2);
\$x3=(\$w1-\$w3)/2;
\$y3=0;
}else{
// Just calculate position
\$y3=(\$h1-\$h3)/2;
\$x3=0;
}

// Tidy up
\$x3=round(\$x3);
\$y3=round(\$y3);
\$w3=round(\$w3);
\$h3=round(\$h3);

// Result array
\$res=array(\$x3,\$y3,\$w3,\$h3);

return(\$res);

}
``````

I'd like to understand this algorithm and other versions of it so that my brain groks the foundations so that I never have to rely on pen and paper (or the whiteboard) again.

So, how would you do this? What fluff can be removed?

EDIT: As an example - say we have rectangle 1 to have dimensions 256x256 and rectangle 2 to be 44x167. Then we need to scale rectangle 2 to 67x256 and position it at 94,0 relative to rectangle 1 so that it sits maximized and centralized in rectangle 1.

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You have no lights, but a computer to program on? –  gbtimmon Nov 14 '12 at 18:06
Upvoted for witty post but I don't understand what the third rectangle is. –  Miserable Variable Nov 14 '12 at 18:08
"Anyway, it's quite straightforward and easy to understand."..."I'd like to understand this algorithm and other versions of it..." - What exactly is the question again? –  mbeckish Nov 14 '12 at 18:09
Let's say the big rectangle is a letter size paper and the small rectangle is an envelope. So...you want to center the envelope on the paper. Now what's the third rectangle? –  Miserable Variable Nov 14 '12 at 18:11
@gbtimmon Aye, you should see the coat I'm wearing - I can just about move my hands to type. –  zaf Nov 14 '12 at 18:14

Here's how I would do it.

let's define a term, fatness, that is equal to the ratio of a rectangle's width to its height. a rectangle with height 1 and width 10 has fatness 10. A rectangle with height 20 and width 10 has fatness 0.5. When you resize a rectangle, its fatness doesn't change.

When you scale rectangle 2 up or down in size so that its width is equal to rectangle 1, it will not overflow the top or bottom as long as rectangle 2 is fatter than rectangle 1. It will overflow if 1 is fatter than 2. Now you know ahead of time whether to resize for a snug width, or a snug height. Furthermore, the translation logic is the same for both cases, so that can go outside of the if/else block.

in pseudocode: (sorry, I don't know PHP)

``````fatness1 = w1 / h1
fatness2 = w2 / h2

if fatness2 >= fatness1:
#scale for a snug width
scaleRatio = w1 / w2
else:
#scale for a snug height
scaleRatio = h1 / h2
w3 = w2 * scaleRatio
h3 = h2 * scaleRatio

#adjust rectangle 3's center so it is the same as 1's center
xCenterOf1 = x1 + (w1 / 2)
yCenterOf1 = y1 + (h1 / 2)

x3 = xCenterOf1 - (w3 / 2)
y3 = yCenterOf1 - (h3 / 2)

return (x3, y3, w3, h3)
``````

Testing in python, assuming rectangle 1 is at (0,0), `scale(256,256, 44, 167)` returns `(0.0, 94.3, 256.0, 67.4)`.

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I like the idea of 'fatness'. –  zaf Nov 15 '12 at 9:49

Here's a handy function written in Java.

``````public static RectF fitRectWithin(Rect inner, Rect outer) {
float innerAspectRatio = inner.width() / (float) inner.height();
float outerAspectRatio = outer.width() / (float) outer.height();

float resizeFactor = (innerAspectRatio >= outerAspectRatio) ?
(outer.width() / (float) inner.width()) :
(outer.height() / (float) inner.height());

float newWidth = inner.width() * resizeFactor;
float newHeight = inner.height() * resizeFactor;
float newLeft = outer.left + (outer.width() - newWidth) / 2f;
float newTop = outer.top + (outer.height() - newHeight) / 2f;

return new RectF(newLeft, newTop, newWidth + newLeft, newHeight + newTop);
}
``````
-

Here's how I did it. (This algorithm works great with images.) Let's say you have a rectangle, and a container (also a rectangle):

``````aspectRatio = screen.width / screen.height

if (rectangle.width >= rectangle.height)
{
resizeFactor = container.width / rectangle.width
rectangle.width = rectangle.width * resizeFactor
rectangle.height = rectangle.height * resizeFactor * aspectRatio
}
else
{
resizeFactor = container.height / rectangle.height
rectangle.width = rectangle.width * resizeFactor / aspectRatio
rectangle.height = rectangle.height * resizeFactor
}
``````

You can optimise this algorithm a little bit by changing line 6 to:

``````rectangle.width = container.width
``````

and the same to line 13 if you want to.

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Note that I've written this algorithm in pseudo-code. –  Sha-Kaan Oct 25 '13 at 4:18