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I have a rectangle width x height, and N squares of same unknown size. I must determine the maximum size of these squares and number of rows and columns to fit perfectly (UPD. I mean not to fill all space, but fill as much space as possible) into the rectangle.

I guess, mathematically it looks like this:

x * size <= width                  //x - number of columns
y * size <= height                 //y - number of rows
x * y <= N                         //N - number of squares
size -> max                        //size - size of squares

Final result can look like this:

1 1 1 1
1 1 1 1
1 1 0 0

Where 1 = squares, 0 = empty space`.

Actually I saw similar problems, but with predefined size of squares. Also, I wrote some clumsy algorithm, but its results are very unsatisfactory..

Edit: My current algorithm:

I tried a lot of variations, but I cant make it work flawlessly for all cases. Actually, I can go through all possible sizes, but I do not like this approach.

// to make things more simple I put width as bigger size 
int biggerSize = this.ClientSize.Width;
int lowerSize = this.ClientSize.Height;  
int maxSize = int.MinValue;
int index = 0;
int index2 = 0;

// find max suitable size
for (int i = _rects.Count; i > 0; i--) {
  int size = biggerSize / i;
  int j = (int)Math.Floor((double)lowerSize / size);

  if (i * j >= _boards.Count && size > maxSize) {
    maxSize = size;
    index = (int)i;
    index2 = (int)j;

int counter = 0;

// place all rectangles
for (int i = 0; i < index; i++) {
  for (int j = 0; j < index2; j++) {
    if (counter < _rects.Count) {                                
      _rects[counter].Size = new Size(maxSize, maxSize);
      _rects[counter].Location = new Point(i * maxSize, j * maxSize);

share|improve this question
Please post the algorithm you wrote, and describe how the results are unsatisfactory. Is it too slow? Are the results not what you expected? If so, what results did you get, and what results did you expect? – Kevin Sep 27 '12 at 18:37
Done. Thanks for reply – DizzyBlack Sep 27 '12 at 18:56
I think I understand what you mean, but just to be sure, could you include some examples? (just the numbers will be fine) Say you have a 24x60 rectangle and N=10, the squares could be of size 12, right? And if N=2, size 24? – harold Sep 27 '12 at 19:22
Yes, true. And if N=9 and 24x60 - there will be an empty square. I stated the goal a little incorrectly - not perfect fill, but best possible fill. – DizzyBlack Sep 28 '12 at 11:36
up vote 2 down vote accepted

Your question is not consistent. First, you state the problem as "determine the maximum size of these squares and number of rows and columns to fit perfectly into the rectangle." (emphasis added).

But then you give a sample final result that allows empty space.

So which is it?

If you need the squares to fit perfectly in the rectangle with no empty space and no squares extending beyond the bounds of the rectangle, then the size of the maximal square would equal the greatest common divisor of the length and width of the rectangle.


share|improve this answer
Sorry. I meant not to fill all space, but fill as much space as possible. Thanks for your reply. I can not understand only one thing about it - this method will give me only the maximum size, but I also have predefined number of squares I need to place. – DizzyBlack Sep 28 '12 at 11:42
@DizzyBlack - Well, you know you don't want any squares smaller than the greatest common divisor. So, if all rectangle and square lengths are ints, then you could just try all square lengths between gcd and min(length, width). – mbeckish Sep 28 '12 at 12:59
Okay, I am not sure it is the perfect solution I searched, but anyway, thanks, I will think about it. – DizzyBlack Oct 2 '12 at 11:14

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