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I have 1000 unique objects in a java.util.List, each referring to an image, each image in the 1000-list is unique and now I'd like to shuffle them, so that I can use the first 20 objects and present them to the website-user. The user can then click a button saying "Shuffle", and I retrieve the 1000 images again from scratch and calling again shuffle(). However, it seems that out of 1000 image objects, I very often see the same image again and again between the 20-image-selections.

Something seems to be wrong, any better suggestion, advices?

My code is very simple:

List<String> imagePaths = get1000Images();

int i = 0;
for (String path: imagePaths) {
  ... do something with the path ...
  if (i >= 20) break;

I know that Collections.shuffle() is well distributed: see for instance http://blog.ryanrampersad.com/2012/03/03/more-on-shuffling-an-array-correctly/

However, I just have the feeling that the probability of seeing the same image over and over again in a set of 20 images out of 1000 should be much less...

Inputs highly appreciated.

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Without seeing a statistical analysis of what you're seeing it's difficult to know if its anomalous. –  Dave Newton Mar 14 '12 at 12:08
My guess is that you've actually got the same image path multiple times, or multiple image paths that actually have the same image data. Beyond that, it's hard to say with this little information... –  Jon Skeet Mar 14 '12 at 12:09
Have a look at my answer here, might be helpful. Maybe you should plug different Random implementation? –  Tomasz Nurkiewicz Mar 14 '12 at 12:12
relevant dilbert –  oers Mar 14 '12 at 12:12
@basZero: Actually, you should not create a new instance of Random per shuffle, unless you have a strong source of random seed. Otherwise, reuse the same one. Maybe SecureRandom with good seed? –  Tomasz Nurkiewicz Mar 14 '12 at 12:24

6 Answers 6

up vote 13 down vote accepted

Its human nature to see patterns which are not there. Many people see patterns in the planets and stars as guiding their life.

In the first 1000 digits of PI there are six nines in a row. Does that mean the digits of PI are not random? no. The pattern doesn't occur again any more than your might expect.

Having said that, Random is not completely random and it will repeat after 2^48 calls. (it uses a 48-bit seed) This means its not possible to produce every possible long or double using it. If you want more randomness you can use SecureRandom with shuffle instead.

It sounds like what you want is something like this

List<String> imagePaths = new ArrayList<>();

// called repeatedly
if (imagePaths.size() <= 500) {
    imagePaths = get1000Images();

for (String path: imagePaths.subList(0, 20)) {
  ... do something with the path ...

imagePaths = imagePaths.subList(20, imagePaths.size());

This will ensure that you don't see the same image in the last 500 calls.

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I thought about that too, actually this morning :) Thanks for taking your time for the code example... –  basZero Mar 14 '12 at 12:57
+1 for planets, stars and 2^48. :) –  AlexR Mar 14 '12 at 13:56

If you're showing 20 images out of 1000 the probability of seeing any one of that 20 repeated in the next iteration is approximately 0.34 so you shouldn't be surprised to see images repeating.

The chances of seeing a specific image is still one in a thousand, but if you're looking for twenty images the chances are much higher.

We can calculate the probability of none of the previous 20 images repeating as:

 980   979         961
———— × ——— × ... × ——— ≈ 0.66
1000   999         981

And so the probability of seeing a repeat is one minus this, or approximately 0.34.

And the probability of seeing an image repeated in either of the next two iterations is:

1 - (0.66 × 0.66) ≈ 0.56

In other words, it's more likely than not that you'll see a repeated image over the two following cycles. (And this isn't including images repeated from the second cycle in the third which will only make it more likely.)

For what it's worth, here's some Java code to do the above calculation:

float result = 1.0f;
int totalImages = 1000;
int displayedImages = 20;

for (int i = 0; i < displayedImages; i++) {
  result = result * (totalImages - displayedImages - i) / (totalImages - i);

share|improve this answer
1 - 0.66 = 0.34 –  Christoffer Hammarström Mar 14 '12 at 12:31
@ChristofferHammarström - Fixed. –  Dave Webb Mar 14 '12 at 12:44
Or maybe it's supposed to be 1 - 0.67 = 0.33? –  Christoffer Hammarström Mar 14 '12 at 12:57
The code above returns 0.6649897 which I'm rounding to 0.66. I'm not sure the exact values matter too much, the point is that you can expect to see one of the previous 20 images repeat about one in every three times. –  Dave Webb Mar 14 '12 at 13:00

Your intuition is correct for a specific image [you are not likely to see a specific image over and over again], but not for a general image [you are likely to see some image repeating]. This is one of these places in probability that our automatic intuition is wrong...

This reminds me the birthday paradox, which contradicts the intuition, and says - for a group of 23 people, the likelihood of 2 of them having the same birthday is 0.5, much more then the intuition expects!

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Following your question I wrote the following program. I created list of sequential integers and shuffled it 10, 100, 1000 and 10000 times. After every series of shuffles I checked value of element in 5th position of the array and created array of counters: how many times each number appears at 5th position.

Here is the program:

public class MyTest {
    public static void main(String[] args) {
        int n = 10;
        List<Integer> list = new ArrayList<Integer>();
        for (int i = 0;  i < n;  i++) {

        int[] counters = new int[n];

        for(int shuffles : new int[] {10, 100, 1000, 10000}) {
            Arrays.fill(counters, 0);
            for (int i = 0;  i < shuffles; i++) {
                // check 5-th element
                int fifth = list.get(5);
                counters[fifth] = counters[fifth] + 1;
            System.out.println(shuffles + ": " + Arrays.toString(counters));

And here are the results:

10: [0, 1, 1, 1, 2, 0, 0, 3, 2, 0] 100: [11, 9, 9, 7, 10, 12, 13, 13, 8, 8] 1000: [100, 101, 107, 101, 95, 96, 109, 83, 93, 115] 10000: [1015, 942, 990, 1003, 1015, 1037, 977, 1060, 950, 1011]

As you can see the "randomality" depends on number of shuffles. If you shuffle array 10 times the minimal counter is 0 and the maximal is 3. The difference between these values for 100 shuffles (in per cents) much smaller. The numbers a almost the same for 10000 shuffles.

I think that this test models your use-case: you are showing images in specific position of shuffled collection.

Please see post of @amit that describes the meaning of shuffle.

So, the solution for you is to shuffle your array 10 times.

EDIT: @Dave Webb gave perfect explanation for the case.

The second thinking is the following: you actually do not have to shuffle you list of 1000 elements to take 20 first element from it. It is enough to take 20 random elements. You will get the same effect but much more effective solution:

Set<Image> show = new HashSet<Image>();
Random r = new Random(System.currentTimeMillis());
for (int i = 0;  show.size() < 20;  i++) {
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Great, and I like your suggestion to choose 20 random entries instead of shuffling 10 times... Just a sidenote: picking 20 random elements can also end up in picking the same twice. So this should be changed a bit, but your code example is a good start! –  basZero Mar 14 '12 at 12:40
@basZero, my code sample takes into consideration taking same elements twice: I used Set to store results and iterated until the set size is 20. –  AlexR Mar 14 '12 at 12:43
True, sorry, thought you'd have used List –  basZero Mar 14 '12 at 12:44
@basZero And there's a really simple (and much more efficient) solution to avoid that problem; see here. Yep that's right, if we were to do this correctly we'd just reimplement the shuffle algorithm that's already in use. To prove randomness you never believe your intuition - that'll basically always be wrong. There are statistical tests for that (Chi-Square, Kolmogorov-Smirnov,..). Also never do nextInt() % size if you want a uniform distribution, that'll obviously only work in rare cases. –  Voo Mar 14 '12 at 12:50
@basZero Calling shuffle several times doesn't make any sense from a statistical pov (if you believe otherwise, I'm always game for some chi-square tests, note that "doesn't look random" is uninteresting). But the point is: What the shuffle algorithm does is basically taking random elements out of the list. Hence the edited solution is basically a not really efficient shuffle algorithm with some bugs in it. –  Voo Mar 14 '12 at 13:00

I did a 52 card shuffle four different times and marked every time each iteration repeated the exact same card in the exact same slot, which gave me approximately 14 out of 208 cards, which was approximately 93.3% random.

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With that code, if you're seeing the same image over and over, it means the same image exists many times in the list. Whereever you're getting your 1000 images from, there are duplicates.

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I can guarantee that all images in the list are different. they come directly from a lucene index where the path is the 'primary key' in the lucene index –  basZero Mar 14 '12 at 12:12
If your code really is the way you have it, where you're just iterating over the list and not modifying the list after the initial shuffle, then the only way you can get duplicates in your chosen 20 images is if there are duplicates in the list to begin with. Collections.shuffle() does not insert copies, it just reorders the existing items. –  Graham Borland Mar 14 '12 at 12:15
He is seeing the same image among the selected 20 over and over on several subsequent shuffles. –  aioobe Mar 14 '12 at 12:17
Ah, OK. That wasn't clear from wording of the question. –  Graham Borland Mar 14 '12 at 12:19
Sorry for the bad wording, corrected it now, hope it's clearer... –  basZero Mar 14 '12 at 12:27

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