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i am working on an application in which a lot of newspaper clippings should be "thrown" randomly on y table. however if using true random there is always the possibility that all clipings appear on one place. the client would prefer a more "equal" random distribution.

one of my solutions was: if i have 20 clippings, calculate a grid with 20 fields and then put each clipping in a field with random x/y positions within that field.

anyone have a better / more clever solution?

thanks a lot!

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That's a good, quick way of doing it. – j_random_hacker Nov 3 '12 at 13:25
i agree, but just remember you need a uniform distribution within each field, otherwise you will get "a grid of piles". – FredrikRedin Nov 3 '12 at 14:55
up vote 1 down vote accepted

What you are looking for is known as a quasi-random sequence (or a low-discrepancy sequence). There are several well-known sequences like that, here's the Wikipedia entry. Depending on your language of choice, ready-to-use libraries might be available (a couple of examples are mentioned in this question: Recommendations for Low Discrepancy (e.g. Sobol) quasi-random sequences in Python/SciPy?).

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Ok, Thanks Will look into that, looks very perfect. Also now i know how it is called. – zantafio Nov 3 '12 at 15:05

Here what i would do....

As it is about clippings i suppose that the visual part is also important...

I would divide the table in 4 parts (equal in surface) and and one more (overlapping) part that represents the centre of the table. you can always play with the number of 4 and make it 6 or 8 but i would not go as high as 20.

Now you divide the clippings at random x/y positions over the 5 parts.

Like this you will always have a "strong" centre of your table, but you guarantee that not all clippings are on one pile.

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Nice Thanks. Will try that. – zantafio Nov 3 '12 at 15:04

Here is a very simple brute-force approach:

  • Keep a list of the points you have already picked.
  • pick n random points
  • Select among them the point that has the greatest minimal distance to all points on your list, throw away the others
  • add that point to the list of points you have picked
  • repeat until you have enough points

Basically, you always try out multiple points, and choose only the one that is furthest from all previously chosen points.

The runtime is O(n²)

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Perhaps the easiest way of solving this problem is to flatten it to a linear object. A grid of 4 x 5 can become a list of 20. Just give each 'slot' a number (0 - 19) and use the following algorithm. Hope you don't mind Java.

private void randomSlotFiller(int numberOfSlots) {
    List<Integer> list = new ArrayList<Integer>();
    Random random = new Random();
    for (int i = 0; i < numberOfSlots; i++) {
    while(!list.isEmpty()) {
        System.out.print(list.remove(random.nextInt(list.size())) + " ");

The algorithm works in the following way:

  1. Create an empty list
  2. Fill the list with our slot numbers
  3. Randomly select and remove a slot until none remain.

Obviously just printing out the numbers are not going to do much good so modify the code as needed.

An example output might be:

15 9 17 13 8 10 6 11 3 7 2 19 4 0 12 18 16 5 1 14 

Note: This algorithm provides even distribution across all 'slots' over many iterations.

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