Here's an enumeration of random integers:

var r = new Random();
var e = Enumerable.Repeat(1, 10_000_000).Select( _ => r.Next());

Which version do you think is faster:

var result = e.OrderBy(x => x).Last(); //materialize the IEnumerable

or

var l = e.ToList();
l.Sort();
var result = l.Last();

I was hoping that .OrderBy(x => x).Last() in the first example would be optimized to only sort a small subset of the list or to just do an O(n) walk of the list.

Spoiler: It's not.

But then, the performance of the two versions should be at least comparable, right? I mean:

In the first one, OrderBy() allocates a temp array and sorts it in place.
In the second one, I explicitly allocate a list and Sort() it in place.

The actual results show that the OrderBy() example is 4-5x slower! (5-6 sec vs 1.2-1.3 sec)

Can anyone come up with an explanation why?

The .OrderBy(x => x) case does execute its x => x identity lambda for each element.
The difference between:

var result2 = e.Last();

and

var result2 = e.Select(x=>x).Last();

is measurable, but small: 30 - 50 ms more in the second case. So that doesn't explain the huge gap.

  • 2
    This is why I wish there were versions of Min() and Max() that returned the object instead of the value. It would avoid the need to sort the entire item set to get the object with the highest or lowest value. – itsme86 Aug 10 at 14:32
  • @itsme86 What do you mean? You can always do IEnumerable<MyThing> thingsList = ...; MyThing pubBum = thingsList.Max( thing => thing.BeersBeforeCollapsing ) – Cristi Diaconescu Aug 10 at 14:36
  • 2
    That returns an int assuming BeersBeforeCollapsing is an int. It could also be a float I guess. – itsme86 Aug 10 at 14:37
  • 1
    Oh wow, you're right! Sorry, I would have bet on this (and lost money!) – Cristi Diaconescu Aug 10 at 14:44
  • 2
    LINQ to Object doesn't do any clever fusion optimizations. OrderBy().Last() is OrderBy() followed by Last(), and not something that's faster than the individual operations. You're basically asking why the in-place sort operation List.Sort (which uses introsort) is faster than Enumerable.OrderBy (which uses quicksort, hobbled by the requirement of the comparison going through a key selector lambda). If you wanted to get to the bottom of that, benchmark.net could probably tell you. – Jeroen Mostert Aug 10 at 14:54

It appears that List has a special optimized C++ version of sorting it uses when it is comparing types with the Comparer.Default or no IComparer for the type. OrderBy always does a generic sort suitable for any type and IComparer.

If you replace the Select result with objects of type MyInt as follows:

public class MyInt : IComparable {
    public int value;
    public MyInt(int newv) => value = newv;

    public int CompareTo(object obj) {
        if (obj is MyInt m2) {
            return value.CompareTo(m2.value);
        }
        else if (obj is int i2) {
            return value.CompareTo(i2);
        }
        else {
            throw new Exception($"can't compare MyInt to {obj.GetType()}");
        }
    }
}

var e = Enumerable.Repeat(1, 10_000_000).Select(_ => new MyInt(r.Next()));

Then OrderBy will be 2 times faster than the List.Sort method.

Note, if you use Comparer<>.Create to create a Comparer for MyInt, List.Sort is about on par with OrderBy:

l.Sort(Comparer<MyInt>.Create((m1,m2) => m1.value.CompareTo(m2.value)));

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