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I have this IEnumerable :


and I need to order the list of the MyObject randomly. Do I need to cast into an ArrayList?

Or I can do it directly? Thanks


this is my actual random order function :

IList<ArchiePacchettoOfferta> list = new List<ArchiePacchettoOfferta>(m_oEnum);
for (int i = 0; i < list.Count; ++i)
    HttpContext.Current.Response.Write(list[i].Titolo + "<br />");

Random rnd = new Random();
for (int i = 0; i < list.Count; ++i)
    int swapIndex = rnd.Next(i + 1);
    ArchiePacchettoOfferta tmp = list[i];
    list[i] = list[swapIndex];
    list[swapIndex] = tmp;

for (int i = 0; i < list.Count; ++i)
    HttpContext.Current.Response.Write(list[i].Titolo + "<br />");

it orders the list in the same way every time :(

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Almost, but not quite a dupe of stackoverflow.com/questions/1651619/… –  LukeH Jul 4 '11 at 9:52
You may provide a seed to Random's constructor. –  Flinsch Jul 4 '11 at 10:01
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3 Answers

up vote 0 down vote accepted

Enumerators allow "iterated" access only. Thus, there is no possibility to access the elements randomly or in a sorted way. You have to read the enumerated values and (temporarily) store them in another list for which you can apply your (random) sorting algorithm.

[edit] Example:

List<MyObject> list = new List<MyObject>( my_enumerable );
Random rnd = new Random(/* Eventually provide some random seed here. */);
for (int i = list.Count - 1; i > 0; --i)
    int j = rnd.Next(i + 1);
    MyObject tmp = list[i];
    list[i] = list[j];
    list[j] = tmp;
my_enumerable = list;

(I have not tested the example code.)

share|improve this answer
Can you give to me an example? –  markzzz Jul 4 '11 at 9:21
I've added a small example to my post that shows the creation and (random) sorting of a helper list. –  Flinsch Jul 4 '11 at 9:30
Swapping elements like this doesn't give a uniform distribution, IIRC. See the link in my answer for a modified Fisher-Yates shuffle that does give a uniform distribution. –  Jon Skeet Jul 4 '11 at 9:35
@Jon, I was not aware that the random sorting has to give a uniform distribution, However, one can apply any sorting algorithm to such a helper list I created in my example provided just to complete the example. I think the question was not to find the "best" random distribution. –  Flinsch Jul 4 '11 at 9:38
@Flinsch: It's not as nicely "random" if there's a bias based on original position, is it? It's simple to shuffle in a better way, so why not do so? –  Jon Skeet Jul 4 '11 at 9:41
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IEnumerable<int> ints;

var random = new Random();
var shuffled = ints.OrderBy(i => random.Next()).ToList();

The ToList is only there to ensure that the same (random) order is returned when iterating over shuffled more than once. Of course you can shuffle 'inplace' if you don't need the original anymore

ints = ints.OrderBy(i => random.Next()).ToList();


There is some discussion on whether you should rely on OrderBy comparing elements only once. If you don't want to do trust your .NET implementation to do that, spell it out:

var random = new Random();
var shuffled = ints
      .Select(i => new { key=random.Next(), i })
      .OrderBy(tmp => tmp.key)
      .Select(tmp => tmp.i)

See these links for more background on what potential problem this solves (mainly a performance degradation for the current sample, but also the risk of having non-uniform distribution):

share|improve this answer
I generally dislike this way of shuffling - you're assuming that the key projection is only applied to each item once. As it happens, that's the case with the current implementation of LINQ to Objects, but it's not guaranteed. It's also slower than doing a Fischer-Yates shuffle. –  Jon Skeet Jul 4 '11 at 9:34
Jon: appreciated. Edit Eric Lippert actually promised me to get the documentation team to add the 'single comparison' guarantee to the docs. You yourself argued that OrderBy should not (and does not) evaluate the comparison between elements more than once - because the comparison might be expensive - on your blog. You found that the .NET implementation honours this –  sehe Jul 4 '11 at 9:37
Yes, but that's not the same as suggesting that you should rely on that... especially when ordering by this is more expensive than performing a shuffle anyway. –  Jon Skeet Jul 4 '11 at 9:41
I've found a quote in a blog post: blogs.msdn.com/b/ericlippert/archive/2011/01/31/… "Shuffling is not sorting; it is the opposite of sorting, so don't use a sort algorithm to shuffle. There are lots of efficient shuffle algorithms that are easy to implement." –  Jon Skeet Jul 4 '11 at 9:52
@Jon: Thanks for the forensic work. All I can say is that we (badly) need a standard Shuffle extension in the .NET framework. It could DoTheRightThing, optimize appropriately and in general prevent surprises –  sehe Jul 4 '11 at 10:20
show 5 more comments

You can't just cast an IEnumerable<T> to a different type - and you wouldn't want to convert to the non-generic ArrayList type anyway.

However, what you can do is read everything into a list (simplest with the ToList extension method) and then shuffle that. My answer here has an example of the shuffle code - admittedly within an iterator block, but the guts are there.

EDIT: If you're seeing the same ordering every time, I suspect you're creating multiple instances of Random in a short space of time, and they've all got the same seed.

Read this article for details and workarounds.

share|improve this answer
Uhm, Yeah but I also do this myEnum.ToArray(); –  markzzz Jul 4 '11 at 9:19
@markzzz: Yes, you can use an array instead. It's slightly more efficient to convert to a list than to an array, unless you happen to get lucky, IIRC. Either way, you end up with a suitable collection you can shuffle. –  Jon Skeet Jul 4 '11 at 9:22
uhm, List<myObject> myList= m_enum.ToList doesnt work :( –  markzzz Jul 4 '11 at 9:28
@markzzz: Do you have a using directive for System.Linq? Note that it also needs to be ToList();, not ToList;. Please give more details than "doesn't work". –  Jon Skeet Jul 4 '11 at 9:33
Tested you random order : the list is the same each time, nothing change –  markzzz Jul 4 '11 at 9:54
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