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Given a rectangle with width and height, fill it with n squares (n is integer, also given), such that the squares cover as much of the rectangle's area as possible. The size of a single square should be returned.

Ideas?

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1  
homework? .................. –  Mitch Wheat Jun 24 '11 at 4:19
    
This looks like homework ... if it is, check this out, might give you a starting place. en.wikipedia.org/wiki/Packing_problem –  Stephan van den Heuvel Jun 24 '11 at 4:22
2  
No, it's an interview question –  xdunder Jun 24 '11 at 4:26
    
Do the squares have to be the same size? Do they have to be axis-aligned (i.e., have the same orientation as the rectangle)? –  ShreevatsaR Jun 24 '11 at 5:05
    
Yes, they are the same size and they have the same orientation as the rectangle. –  xdunder Jun 24 '11 at 5:20

4 Answers 4

up vote 1 down vote accepted

Assuming that all the squares are aligned and they are the same size, you can find this by binary searching on the side length of the square:

import math

def best_square(w, h, n):
    hi, lo = float(max(w, h)), 0.0
    while abs(hi - lo) > 0.000001:
        mid = (lo+hi)/2.0
        midval = math.floor(w / mid) * math.floor(h / mid)
        if midval >= n:
            lo = mid
        elif midval < n: 
            hi = mid
    return min(w/math.floor(w/lo), h/math.floor(h/lo))
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Are you assuming that all n squares are of the same size? The question doesn't seem to mention this. –  ShreevatsaR Jun 24 '11 at 4:43
    
Ah! You are right that I messed up, however it is in fact evident that the sides of the squares must be all equal (otherwise why would it say return the side of the square?). Where I went wrong was that I assumed they needed to be all aligned to the edges of the rectangle which is not true. I will leave this solution here since it does solve at least one simpler version of the problem. –  Mikola Jun 24 '11 at 4:50
    
I don't think so. I tested it out on some of the square cases and it gave the correct solution. The reason it should go this way is that the number of squares is decreasing as a function of the side length, not the other way around. –  Mikola Jun 24 '11 at 5:04
    
My bad, I didn't mention in my question, the n squares are the same size, you guys post solutions super fast! –  xdunder Jun 24 '11 at 5:07
    
@Mikola: Hmm… you're right, I think. I've deleted my comment. There seem to be some floating-point errors, though: your code with print best_square(100, 100, 10) prints 25.0000007451; perhaps we need a smaller epsilon. –  ShreevatsaR Jun 24 '11 at 5:15

The squares do not necessarily have to be oriented the same as the larger rectangle. These sorts of problems are known as packing problems, and finding optimal solutions is notoriously hard.

For an excellent treatment in the case when the larger shape into which the n squares are packed is a square, see Erich Friedman's paper Packing Unit Squares in Squares: A Survey and New Results

For example, Gödel was the first to publish on this subject. He found that a2+a+3+(a-1)√2 squares can be packed in a square of side a+1+1/√2 by placing a diagonal strip of squares at a 45 degree angle. For example,

Gödel's 5 square solution

And just for fun, I highly recommend you check out Erich's Packing Center.

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Do you know if the problem where the squares don't have to be the same size (as the current wording of the question seems to allow) has been considered? –  ShreevatsaR Jun 24 '11 at 4:52

Here is my solution The idea is to go on a recursive loop Suppose u start with square_counter =0

While length and breath: // find the biggest possible square

Count1 = length/breath // take the floor

Square_counted += count1

New balance length = length - count1* breath

Now square with Max size possible wrt breath

Count2 = breath/length

Square_count += count2

Breath = breath - count* length

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I know that question was a long time ago, but here is what i though :

you have n square you have a rectangle you want to know the size of the square to fill the rectangle

for example :

rectangle of 1280*720 filled with 100 squares. 
The surface is 1280*720=921600
1 square should have the surface of 921600/100 = 9216
so the square size is sqrt(9216)=96

In the end it would just be a function that return the result of this :

sqrt((width*height)/n)
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