Why is the following code


much faster at sorting an array in descending order compared to

Array.Sort(values, (a,b)=>(-a.CompareTo(b)));

Code was run in Release mode outside of the debugger.

What is the most efficient way to produce a descending sort for arrays, preferably in a one liner?

  • Can you reproduce this if you replace the anonymous method with a normal one? – Daniel Hilgarth Jul 27 '11 at 9:31
  • Have you tried using a non anonymous custom comparer that doesn't call the old comparer? And how big was the difference? Also did you follow a tutorial like this the following considering micro-benchmarking yoda.arachsys.com/csharp/benchmark.html ? Because it's quite a difficult thing to get right. – Roy T. Jul 27 '11 at 9:32

That's a great question. I bet your values array is an array of primitive type!

It's really the sort that is dominant here, because the complexity of Reverse is O(n), while the sort is O(n logn).

The thing is that when sorting primitive types, .NET actually calls a native function, which is extremely fast - much faster that using a Comparison or Comparator.

The function is called TrySZSort:

[ReliabilityContract(Consistency.MayCorruptInstance, Cer.MayFail)]
private static bool TrySZSort(Array keys, Array items, int left, int right);

and here is how it's called in the Array class:

[ReliabilityContract(Consistency.MayCorruptInstance, Cer.MayFail)]
public static void Sort<T>(T[] array, int index, int length, IComparer<T> comparer)
  if (array == null)
    throw new ArgumentNullException("array");
  else if (index < 0 || length < 0)
    throw new ArgumentOutOfRangeException(length < 0 ? "length" : "index", Environment.GetResourceString("ArgumentOutOfRange_NeedNonNegNum"));
  else if (array.Length - index < length)
    throw new ArgumentException(Environment.GetResourceString("Argument_InvalidOffLen"));
  else if (length > 1 && (comparer != null && comparer != Comparer<T>.Default || !Array.TrySZSort((Array) array, (Array) null, index, index + length - 1)))
    ArraySortHelper<T>.Default.Sort(array, index, length, comparer);
  • The source code available from microsoft even get the comment TrySZSort is still faster than the generic implementation. The reason is Int32.CompareTo is still expensive than just using '<' or '>'. for the case where no comparer are specified :D – Julien Roncaglia Jul 27 '11 at 9:34
  • Also providing a Comparison<T> instead of an IComparer<T> force the framework to do the wrapping as the internal implementation uses a comparer... one more level of indirection (fast but executed for each comparison) – Julien Roncaglia Jul 27 '11 at 9:36

As the link points out

Sort method here always ends up in an internal TrySZSort or QuickSort method when it doesn't throw an exception. The TrySZSort internal method is optimized for one-dimensional arrays, also known as "Zero" arrays or vectors

Because the TrySZSort method used in the base class libraries is implemented in native code, it has been heavily optimized. Therefore, this method is likely faster than any solution written in the C# language

  • 2
    Saying a Ferrari is faster than a Moris Minor without saying why, is not really an answer. – leppie Jul 27 '11 at 9:38


The call to the delegate is much slower than the default call to IComparable.CompareTo


If you want the same (or close) speed, implement the IComparer interface and pass that to the sort method.



Because in your second version it has to invoke your (anonymous) function each time it does a compare and then call .CompareTo inside that, so you have two indirections, whereas otherwise it can use build-in comparisons (for primitive types).

Basically you pay for function call overhead which I bet are eliminated for native primitive types when doing these sorts of operations. Though technically possible (I think), I doubt the Jitter is able to completely inline them in your second case.

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