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I've got a number of controls (charts in this case) that's determined at runtime. I'd like to put these in a grid with the proper number of rows and columns. For example,

  • 4 items = 2 x 2
  • 8 items = 4 x 2
  • 9 items = 3 x 3
  • 20 items = 5 x 4
  • 11 items = 4 x 3 (I don't care about an empty cell)

Sorry, I don't really have any code to show my attempts. I started playing with determining if the square root is an integer, if the number is evenly divisible by 2 etc. and realized I'm not sure how to attack this problem. But this is what I'm thinking:

  • If the square root is an integer, use the square root for the number of rows and columns (no problems there)
  • If not, make sure the number is even (add one if you have to - no problems there)
  • Find the highest two integers that produce the number. e.g. If I have 20 controls, the grid should be 5 x 4 and not 10 x 2 (not really sure the best way for this)

I'd appreciate it if someone could point me in the right direction - or suggest a different algorithm if I'm way off base.

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Are there further constraints to help decide a 'better' fit? For instance, 2x17 = 34, but you could get a more 'square' grid with one space missing by using 5x7 = 35. This can get arbitrarily worse as you start considering doubles of increasingly large prime numbers. –  Dan Bryant Nov 5 '10 at 14:52
    
Hmm, I hadn't thought about that - thanks for pointing that out. I think I'd prefer 35 squares with on missing space. –  Mike Hildner Nov 5 '10 at 16:22

3 Answers 3

up vote 9 down vote accepted

Idea: If square root is not integer, floor it, then divide whole number by this, ceil it.

int columns = (int)sqrt(number);
int lines = (int)ceil(number / (float)columns);

Example: 21 => columns = 4, lines = 6.

UPDATE: bonus, it also works when sqrt(number) is integer. No rounding occurs anywhere, and values are correct.

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1  
+1. I corrected formula (which had a cut-and-paste error)... –  Mitch Wheat Nov 5 '10 at 15:10
    
Thanks! I did rename vars while I was typing, bad idea ;) –  jv42 Nov 5 '10 at 15:12
    
I think this will work for me, thanks for the answer. –  Mike Hildner Nov 5 '10 at 16:27

The "usual" way of handling this problem is by saying that there will always be N columns (less often, always N rows). The problem then becomes a matter of taking the number of items, dividing by N, and that's the number of rows you have (plus one if there's a remainder).

Changing the size of the grid makes for a confusing user interface. Users won't understand why the size of the grid keeps changing. They won't really wonder about it, but they'll be confused by the seemingly random changes.

If you still want to do what you're saying, I think you'll need to define your problem a little better. Is there a maximum number of items that can fit on the grid? Is there a maximum number of columns that you'll allow? For example, if you allow 50 items, should they be in 25 rows of 2 items? 5 rows of 10 items? 10 rows of 5 items?

At some point you'll have to either scroll horizontally or say, "maximum number of columns is X". And if you're going to impose that maximum number of columns, then you're better off just saying "There will always be X columns."

Unless there's a compelling reason to do the variable-dimension grid that you ask for, you're way better off just fixing the number of columns. It makes for trivially simple code rather than some complicated hack, and it presents a much more consistent interface to your users.

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Indeed. I may end up going with this approach. Thanks. –  Mike Hildner Nov 5 '10 at 16:25

A quick check of @jv42's solution works nicely:

public struct Grid
{
    public int x;
    public int y;

    public Grid(int xx, int yy)
    {
        x = xx;
        y = yy;
    }
}

class Program
{
    static void Main(string[] args)
    {
        Grid g0 = GetGrid(1); Debug.Assert(g0.x == 1 && g0.y == 1);
        Grid g1 = GetGrid(4); Debug.Assert(g1.x == 2 && g1.y == 2);
        Grid g2 = GetGrid(8); Debug.Assert(g2.x == 2 && g2.y == 4);
        Grid g3 = GetGrid(9); Debug.Assert(g3.x == 3 && g3.y == 3);
        Grid g4 = GetGrid(20); Debug.Assert(g4.x == 4 && g4.y == 5);
        Grid g5 = GetGrid(30); Debug.Assert(g5.x == 5 && g5.y == 6);
        Grid g6 = GetGrid(99); Debug.Assert(g6.x == 9 && g6.y == 11);
    }

    public static Grid GetGrid(int n)
    {
        int columns = (int)Math.Sqrt(n);
        int lines   = (int)Math.Ceiling(n / (double)columns);

        return new Grid(columns, lines);
    }
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