# Size Algorithm

Ok here's a little problem I would love to get some help on.

I have a view and the viewport size will vary based on user screen resolution. The viewport needs to contain N boxes which are lined up next to each other from right to left and take up all of the horizontal space in the viewport. Now if all the boxes could be the same size this would be easy, just divide the viewport width by N and you're away.

The problem is that each box needs to be 10% smaller than the box to its left hand side, so for example if the viewport is 271 pixels wide and there are three boxes I will be returned [100, 90, 81]

So I need an algorithm that when handed the width of the viewport and the number of horizontal boxs will return an array containing the width of that each of the boxes needs to be in order to fill the width of the viewport and reduce each boxes size by 10%.

Answers in any OO language is cool. Would just like to get some ideas on how to approach this and maybe see who can come up with the most elegant solution.

Regards,

Chris

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What's the maximum number of boxes (n)? –  Bill the Lizard Jan 26 '09 at 12:59
I ask because if n is small, you may want to just store the values in a look up table. –  Bill the Lizard Jan 26 '09 at 13:24
There is no maximum for n, but in reality it will unlikely be more than around 20. –  ChrisInCambo Jan 26 '09 at 13:39

Using a simple geometric progression, in Python,

``````def box_sizes(width, num_boxes) :
first_box = width / (10 * (1 - 0.9**n))
return [first_box * 0.9**i for i in range(n)]

>>> box_sizes(100, 5)
[24.419428096993972, 21.977485287294574, 19.779736758565118, 17.801763082708607, 16.021586774437747]
>>> sum(_)
100.00000000000001
``````

You may want to tidy up the precision, or convert to integers, but that should do it.

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It's called Geometric Progression and there is a Wikipedia article on it. The formulas are there too. I believe that cletus has made a mistake with his f(n). Corrected. :)

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I did. Fixed now. –  cletus Jan 26 '09 at 14:07

Like others have mentioned, the widths of the boxes form a geometric progression. Given viewport width W and number of boxes N, we can solve directly for the width of the widest box X. To fit N boxes within the viewport, we need

X + 0.9 X + 0.9^2 X + ... + 0.9^(N-1) X <= W

{ 1 + 0.9 + 0.9^2 + ... + 0.9^(N-1) } X <= W

Applying the formula for the sum of a geometric progression gives

(1 - 0.9^N) X / (1 - 0.9) <= W

X <= 0.1 W / (1 - 0.9^N)

So there you have it, a closed-form expression which gives you the width of the widest box X.

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This is really a mathematical problem. With two boxes given:

x = size of the first box n = number of boxes P = number of pixels

then

x + 0.9x = P

3: x + 0.9x + 0.81x = P
4: x + 0.9x + 0.81x + 0.729x = P

which is, in fact, a geometric series in the form:

S(n) = a + ar + arn + ... + arn-1

where:

a = size of the first box
r = 0.9
S(n) = P

S(n) = a(1-rn)/(1-r)

so

x = 0.1P/(1-0.9n)

which (finally!) seems correct and can be solved for any (P,n).

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-1... f(n) is wrong –  Greg Jan 26 '09 at 13:12
Quite right. I made a rudimentary error. Fixed now. –  cletus Jan 26 '09 at 13:12
Thanks for your response cletus. Sorry my explanation was confusing, the only two variables I have in the beginning are P and n, I don't have x. So I need to feed in x and P and be returned the sizes for each of the boxes to they are each 10% smaller than the last and their combined width equals P. –  ChrisInCambo Jan 26 '09 at 13:16
x = P/((0.9^(n-1))+n-1) gives x of 96.4 for P=271, n=3 as per the question so still no good. –  danio Jan 26 '09 at 13:23
+1 for correct f(n) =) –  Zach Scrivena Jan 26 '09 at 13:43
show 1 more comment
``````Let:
x = size of the first box
n = number of boxes
P = number of pixels

n = 1: x = P
n = 2: x + .9x = P
n = 3: x + .9x + .81x = P

P = x sum[1..n](.9 ^ (n - 1))

Therefore:
x = P / sum[1..n](.9 ^ (n - 1))

Using the Geometric Progression formula:
x = P (.9 - 1) / ((.9 ^ n) - 1))

Test:
P = 100
n = 3
Gives:
x = 36.9
``````
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You can simplify to: x = P / (10 - (10 * (0.9 ^ n) ) ) –  danio Jan 26 '09 at 13:40
``````    public static int[] GetWidths(int width, int partsCount)
{
double q = 0.9;
int[] result = new int[partsCount];

double a = (width * (1 - q)) / (1 - Math.Pow(q, partsCount));

result[0] = (int) Math.Round(a);
int sum = result[0];

for (int i = 1; i < partsCount - 1; i++)
{
result[i] = (int) Math.Round( a * Math.Pow(q, i) );
sum += result[i];
}

result[partsCount - 1] = width - sum;

return result;
}
``````

It's because it is geometric progression.

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