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Please suggest an easiest way to get a random shuffled collection of count 'n' from a collection having 'N' items. where n <= N

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6 Answers 6

up vote 22 down vote accepted

Another option is to use OrderBy and to sort on a GUID value, which you can do so using:

var result = sequence.OrderBy(elem => Guid.NewGuid());

I did some empirical tests to convince myself that the above actually generates a random distribution (which it appears to do). You can see my results at Techniques for Randomly Reordering an Array.

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12  
This solution violates the contract of orderby, specifically that a given object has a consistent key throughout the sort. If it does work, it does so through chance alone, and could break in future versions of the framework. For more details, see blogs.msdn.com/b/ericlippert/archive/2011/01/31/… –  John Melville Apr 27 '11 at 23:22
    
Good catch. However, if this were committed to an actual collection -- such as adding .ToList() or .ToArray() to the end --, then there's no chance of the collection getting processed/iterating Linq code more than one time to perform the sort. I imagine that would survive future upgrades as well since it would act as a predictable snapshot. –  MutantNinjaCodeMonkey Jan 9 '13 at 20:52
5  
I just stumbled on this page and think it's brilliant, but I don't understand the comment. what could possibly go wrong in using this method to shuffle a collection (I'm not asking that sarcastically, I'm genuinely curious about the possibilities)? –  SelAromDotNet Aug 8 '13 at 23:35
1  
The problem here is not that the key is not consistent. John Melville has misread my article; that article notes that making a comparison -- that is, this item is bigger, smaller or equal to another -- that is inconsistent violates the contract of the Sort method. This answer is wrong for a completely different reason: Guids are only guaranteed to be unique; their randomness is an implementation detail you should not rely upon. –  Eric Lippert Jun 19 at 16:50
2  
In particular, it is legal for guids to be generated sequentially from an initial random element; this still makes good guarantees of uniqueness. Just because the guid generator today does not actually generate sequential guids ever is an implementation detail subject to change, and if it does change, then suddenly your "shuffle" is "shuffling" things into sorted order every time. Use guids to generate uniqueness, never randomness. Use a class designed to generate randomness for randomness. –  Eric Lippert Jun 19 at 16:52

Further to mquander's answer and Dan Blanchard's comment, here's a LINQ-friendly extension method that performs a Fisher-Yates-Durstenfeld shuffle:

// take n random items from yourCollection
var randomItems = yourCollection.Shuffle().Take(n);

// ...

public static class EnumerableExtensions
{
    public static IEnumerable<T> Shuffle<T>(this IEnumerable<T> source)
    {
        return source.Shuffle(new Random());
    }

    public static IEnumerable<T> Shuffle<T>(
        this IEnumerable<T> source, Random rng)
    {
        if (source == null) throw new ArgumentNullException("source");
        if (rng == null) throw new ArgumentNullException("rng");

        return source.ShuffleIterator(rng);
    }

    private static IEnumerable<T> ShuffleIterator<T>(
        this IEnumerable<T> source, Random rng)
    {
        var buffer = source.ToList();
        for (int i = 0; i < buffer.Count; i++)
        {
            int j = rng.Next(i, buffer.Count);
            yield return buffer[j];

            buffer[j] = buffer[i];
        }
    }
}
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3  
+1 Linqy and efficient. Hats off :) –  Dan Blanchard Oct 31 '09 at 17:11
2  
+1 best seen so far. Should be in .Net –  lukas Jun 26 '11 at 22:39
2  
@Htbaa: The method returns a lazily evaluated sequence. If you do seq.Shuffle().ElementAt(n) multiple times then you're re-shuffling each time so it's likely that you'll get a different item at position n. If you want to shuffle once then you need to store the sequence in a concrete collection of some kind: for example, var list = seq.Shuffle().ToList(). Then you can do list.ElementAt(n) as often as you like -- or just list[n] -- and you'll always get the same item back. –  LukeH Jan 3 '12 at 11:52
1  
@gilly3: That's probably because these Shuffle methods return a lazy IEnumerable<T> which will be re-evaluated each time you use it in a string.Join or ElementAt call. That's just the nature of IEnumerable<T>; if you want the behaviour of a concrete collection then you should actually create a concrete collection by calling ToArray or ToList on the result of the Shuffle call. –  LukeH Jul 29 '12 at 23:04
2  
@jocull If you use the version that doesn't take an instance of Random, it will create one for you. Instances of Random created close in time have a risk of using the same seed, and thus giving the same sequence of random numbers. If you pass the same instance of Random to it on different threads, you will get unpredictable results because instances of Random are not thread-safe. You should create your Random instances with different seeds, and not share them between threads. –  Weeble Mar 27 '13 at 13:52

Shuffle the collection into a random order and take the first n items from the result.

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5  
Note that you don't have to completely shuffle the collection when n < N. You simply have to iterate through Durstenfeld's algorithm n times, and take the last n items of the (partially) shuffled result. –  Dan Blanchard Oct 30 '09 at 20:38

This has some issues with "random bias" and I am sure it's not optimal, this is another possibility:

var r = new Random();
l.OrderBy(x => r.NextDouble()).Take(n);
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Sorry for ugly code :-), but


var result =yourCollection.OrderBy(p => (p.GetHashCode().ToString() + Guid.NewGuid().ToString()).GetHashCode()).Take(n);

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I write this overrides method:

public static IEnumerable<T> Randomize<T>(this IEnumerable<T> items) where T : class
{
     int max = items.Count();
     var secuencia = Enumerable.Range(1, max).OrderBy(n => n * n * (new Random()).Next());

     return ListOrder<T>(items, secuencia.ToArray());
}

private static IEnumerable<T> ListOrder<T>(IEnumerable<T> items, int[] secuencia) where T : class
        {
            List<T> newList = new List<T>();
            int count = 0;
            foreach (var seed in count > 0 ? secuencia.Skip(1) : secuencia.Skip(0))
            {
                newList.Add(items.ElementAt(seed - 1));
                count++;
            }
            return newList.AsEnumerable<T>();
        }

Then, I have my source list (all items)

var listSource = p.Session.QueryOver<Listado>(() => pl)
                        .Where(...);

Finally, I call "Randomize" and I get a random sub-collection of items, in my case, 5 items:

var SubCollection = Randomize(listSource.List()).Take(5).ToList();
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You are wasting memory by creating newList. Maybe consider using yield return inside the foreach statement. –  bradlis7 Jun 16 at 21:41

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