The first big problem with your code is that you're creating two instances of
Random. The crappy seeding of
new Random() means that those instances will most likely return exactly the same sequence.
new Random() seeds using
Environment.TickCount, which only changes every few milliseconds. So if you create two instances of
Random in quick succession, the time will be the same and thus they output the same sequence.
The proper solution is to create only one instance of
Random at the beginning, and use if for all your randomness needs. Just be careful about multi-threading, instances of
Random are not thread-safe.
Also note that the upper bound of
random.Next is exclusive, so your code will work only on arrays with 11 elements. It's better to use the collection size instead of hardcoding the value.
Another problem with your code is that you didn't implement a proper swap. To swap you need to your swap has two issues: You're using new indices for the second direction, and you don't create a temporary copy in a local variable to avoid reading the overwritten value, instead of original one.
With these issues fixed your code looks like this:
Random random = new Random();//one persistent instance
public void shuffle()
for (int i = 0; i < 100000; i++)
That said, your approach is a bit inefficient, since you iterate 100000 times. The standard shuffling algorithm is a Fisher-Yates shuffle which Jon-Skeet describes at Is using Random and OrderBy a good shuffle algorithm?.