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private IEnumerable<string> Tables
{
     get {
             yield return "Foo";
             yield return "Bar";
         }
}

Let's say I want iterate on those and write something like processing #n of #m. Is there a way I can find out the value of m without iterating before my main iteration?

I hope I made myself clear.

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18 Answers 18

up vote 127 down vote accepted

IEnumerable doesn't support this. This is by design. IEnumerable uses lazy evaluation to get the elements you ask for just before you need them.

If you want to know the number of items without iterating over them you can use IList<T>, it has a Count property.

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15  
I'd favor ICollection over IList if you don't need to access the list by indexer. –  Michael Meadows Oct 3 '08 at 21:17
    
I usually just grab List and IList out of habit. But especially if you want to implement them yourself ICollection is easier and also has the Count property. Thanks! –  Mendelt Oct 3 '08 at 22:05
    
So how do I check the count when I have a given IEnumerable? –  Shimmy Nov 30 '09 at 23:40
7  
@Shimmy You iterate and count the elements. Or you call Count() from the Linq namespace that does this for you. –  Mendelt Dec 1 '09 at 8:47
1  
Should simply replacing IEnumerable with IList be sufficient under normal circumstances? –  Teekin Apr 1 '10 at 19:02

The Count extension method on IEnumerable<T> has the following implementation:

ICollection<T> c = source as ICollection<TSource>;
if (c != null)
    return c.Count;

int result = 0;
using (IEnumerator<T> enumerator = source.GetEnumerator())
{
    while (enumerator.MoveNext())
        result++;
}
return result;

So it tries to cast to ICollection<T>, which has a Count property, and uses that if possible. Otherwise it iterates.

So your best bet is to use the Count() extension method on your IEnumerable<T> object, as you will get the best performance possible that way.

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5  
Very interesting the thing that it tries to cast to ICollection<T> first. –  Oscar Mederos Apr 25 '11 at 5:24
    
@OscarMederos Most of the extension methods in Enumerable have optimizations for sequences of the various types where they will use the cheaper way if they can. –  Shibumi Jan 26 '12 at 21:27
    
The mentioned extension is available since .Net 3.5 and documented in MSDN. –  Christian Jul 4 '13 at 10:31

Just adding extra some info ..

The Count() extension doesn't always iterate. Consider Linq to Sql, where the count goes to the database, but instead of bringing back all the rows, it issues the Sql Count() command and returns that result instead.

Additionally, the compiler (or runtime) is smart enough that it will call the objects Count() method if it has one. So it's not as other responders say, being completely ignorant and always iterating in order to count elements.

In many cases where the programmer is just checking if( enumerable.Count != 0 ) using the Any() extension method, as in if( enumerable.Any() ) is far more efficient with linq's lazy evaluation as it can short-circuit once it can determine there are any elements. It's also more readable

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8  
+1 for .Any being used to test for no elements –  Josh Smeaton Jun 9 '10 at 2:12
    
In regards to collections and arrays. If you happen to use a collection then use the .Count property as it always knows it's size. When querying collection.Count there is no additional computation, it simply returns the already known count. Same for Array.length as far as I know. However, .Any() gets the enumerator of the source using using (IEnumerator<TSource> enumerator = source.GetEnumerator()) and returns true if it can do enumerator.MoveNext(). For collections: if(collection.Count > 0), arrays: if(array.length > 0) and on enumerables do if(collection.Any()). –  François Wahl Jun 28 '13 at 13:13

IEnumerable cannot count without iterating.

Under "normal" circumstances, it would be possible for classes implementing IEnumerable or IEnumerable<T>, such as List<T>, to implement the Count method by returning the List<T>.Count property. However, the Count method is not actually a method defined on the IEnumerable<T> or IEnumerable interface. (The only one that is, in fact, is GetEnumerator.) And this means that a class-specific implementation cannot be provided for it.

Rather, Count it is an extension method, defined on the static class Enumerable. This means it can be called on any instance of an IEnumerable<T> derived class, regardless of that class's implementation. But it also means it is implemented in a single place, external to any of those classes. Which of course means that it must be implemented in a way that is completely independent of these class' internals. The only such way to do counting is via iteration.

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that's a good point about not being able to count unless you iterate. The count functionality is tied to the classes that implement IEnumerable....thus you have to check what type IEnumerable is incoming (check by casting) and then you know that List<> and Dictionary<> have certain ways to count and then use those only after you know the type. I found this thread very useful personally so thanks for your reply as well Chris. –  CoffeeAddict Aug 18 '10 at 15:37

No, not in general. One point in using enumerables is that the actual set of objects in the enumeration is not known (in advance, or even at all).

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The important point you brought up is that even when you get that IEnumerable object, you have to see if you can cast it to figure out what type it is. That's a very important point to those trying to use more IEnumerable like myself in my code. –  CoffeeAddict Aug 18 '10 at 15:35

Going beyond your immediate question (which has been thoroughly answered in the negative), if you're looking to report progress whilst processing an enumerable, you might want to look at my blog post Reporting Progress During Linq Queries.

It lets you do this:

BackgroundWorker worker = new BackgroundWorker();
worker.WorkerReportsProgress = true;
worker.DoWork += (sender, e) =>
      {
          // pretend we have a collection of 
          // items to process
          var items = 1.To(1000);
          items
              .WithProgressReporting(progress => worker.ReportProgress(progress))
              .ForEach(item => Thread.Sleep(10)); // simulate some real work
      };
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A friend of mine has a series of blog posts that provide an illustration for why you can't do this. He creates function that return an IEnumerable where each iteration returns the next prime number, all the way to ulong.MaxValue, and the next item isn't calculated until you ask for it. Quick, pop question: how many items are returned?

Here are the posts, but they're kind of long:

  1. Beyond Loops (provides an initial EnumerableUtility class used in the other posts)
  2. Applications of Iterate (Initial implementation)
  3. Crazy Extention Methods: ToLazyList (Performance optimizations)
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Result of the IEnumerable.Count() function may be wrong. This is a very simple sample to test:

using System;
using System.Collections.Generic;
using System.Linq;
using System.Collections;

namespace Test
{
  class Program
  {
    static void Main(string[] args)
    {
      var test = new[] { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17 };
      var result = test.Split(7);
      int cnt = 0;

      foreach (IEnumerable<int> chunk in result)
      {
        cnt = chunk.Count();
        Console.WriteLine(cnt);
      }
      cnt = result.Count();
      Console.WriteLine(cnt);
      Console.ReadLine();
    }
  }

  static class LinqExt
  {
    public static IEnumerable<IEnumerable<T>> Split<T>(this IEnumerable<T> source, int chunkLength)
    {
      if (chunkLength <= 0)
        throw new ArgumentOutOfRangeException("chunkLength", "chunkLength must be greater than 0");

      IEnumerable<T> result = null;
      using (IEnumerator<T> enumerator = source.GetEnumerator())
      {
        while (enumerator.MoveNext())
        {
          result = GetChunk(enumerator, chunkLength);
          yield return result;
        }
      }
    }

    static IEnumerable<T> GetChunk<T>(IEnumerator<T> source, int chunkLength)
    {
      int x = chunkLength;
      do
        yield return source.Current;
      while (--x > 0 && source.MoveNext());
    }
  }
}

Result must be (7,7,3,3) but actual result is (7,7,3,17)

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Alternatively you can do the following:

Tables.ToList<string>().Count;
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Here is a great discussion about lazy evaluation and deferred execution. Basically you have to materialize the list to get that value.

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You can use System.Linq.

using System;
using System.Collections.Generic;
using System.Linq;

public class Test
{
    private IEnumerable<string> Tables
    {
        get {
             yield return "Foo";
             yield return "Bar";
         }
    }

    static void Main()
    {
        var x = new Test();
        Console.WriteLine(x.Tables.Count());
    }
}

You'll get the result '2'.

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2  
This does not work for the non-generic variant IEnumerable (without type specifier) –  Marcel Sep 11 '12 at 8:39

No.

Do you see that information available anywhere in the code you've written?

You might argue that the compiler can "see" that there are only two, but that would mean that it would need to analyze every iterator method looking just for that specific pathological case. And even if it did, how would you read it, given the limits of an IEnumerable?

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I would suggest calling ToList. Yes you are doing the enumeration early, but you still have access to your list of items.

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It depends on which version of .Net and implementation of your IEnumerable object. Microsoft has fixed the IEnumerable.Count method to check for the implementation, and uses the ICollection.Count or ICollection< TSource >.Count, see details here https://connect.microsoft.com/VisualStudio/feedback/details/454130

And below is the MSIL from Ildasm for System.Core, in which the System.Linq resides.

.method public hidebysig static int32  Count<TSource>(class 

[mscorlib]System.Collections.Generic.IEnumerable`1<!!TSource> source) cil managed
{
  .custom instance void System.Runtime.CompilerServices.ExtensionAttribute::.ctor() = ( 01 00 00 00 ) 
  // Code size       85 (0x55)
  .maxstack  2
  .locals init (class [mscorlib]System.Collections.Generic.ICollection`1<!!TSource> V_0,
           class [mscorlib]System.Collections.ICollection V_1,
           int32 V_2,
           class [mscorlib]System.Collections.Generic.IEnumerator`1<!!TSource> V_3)
  IL_0000:  ldarg.0
  IL_0001:  brtrue.s   IL_000e
  IL_0003:  ldstr      "source"
  IL_0008:  call       class [mscorlib]System.Exception System.Linq.Error::ArgumentNull(string)
  IL_000d:  throw
  IL_000e:  ldarg.0
  IL_000f:  isinst     class [mscorlib]System.Collections.Generic.ICollection`1<!!TSource>
  IL_0014:  stloc.0
  IL_0015:  ldloc.0
  IL_0016:  brfalse.s  IL_001f
  IL_0018:  ldloc.0
  IL_0019:  callvirt   instance int32 class [mscorlib]System.Collections.Generic.ICollection`1<!!TSource>::get_Count()
  IL_001e:  ret
  IL_001f:  ldarg.0
  IL_0020:  isinst     [mscorlib]System.Collections.ICollection
  IL_0025:  stloc.1
  IL_0026:  ldloc.1
  IL_0027:  brfalse.s  IL_0030
  IL_0029:  ldloc.1
  IL_002a:  callvirt   instance int32 [mscorlib]System.Collections.ICollection::get_Count()
  IL_002f:  ret
  IL_0030:  ldc.i4.0
  IL_0031:  stloc.2
  IL_0032:  ldarg.0
  IL_0033:  callvirt   instance class [mscorlib]System.Collections.Generic.IEnumerator`1<!0> class [mscorlib]System.Collections.Generic.IEnumerable`1<!!TSource>::GetEnumerator()
  IL_0038:  stloc.3
  .try
  {
    IL_0039:  br.s       IL_003f
    IL_003b:  ldloc.2
    IL_003c:  ldc.i4.1
    IL_003d:  add.ovf
    IL_003e:  stloc.2
    IL_003f:  ldloc.3
    IL_0040:  callvirt   instance bool [mscorlib]System.Collections.IEnumerator::MoveNext()
    IL_0045:  brtrue.s   IL_003b
    IL_0047:  leave.s    IL_0053
  }  // end .try
  finally
  {
    IL_0049:  ldloc.3
    IL_004a:  brfalse.s  IL_0052
    IL_004c:  ldloc.3
    IL_004d:  callvirt   instance void [mscorlib]System.IDisposable::Dispose()
    IL_0052:  endfinally
  }  // end handler
  IL_0053:  ldloc.2
  IL_0054:  ret
} // end of method Enumerable::Count
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I have a little thought...

I guest that you have an IEnumerable<T> that come from another Collection<T> for a reason a polymorphism.

If it is the case, the problem probably come from the fact that IEnumerable<T> is the only Interface that can be casted from any Collection<T> because it is the only interface with an <out T> template. But IEnumerable does not have "Count" property. You have a work around for that...

Don't use IEnumerable<T>, create your interface with the "Count" property. See the following code and use

  • ObservableCollectionForFastEnumDerivedCount<T> instead of ObservableCollection<T>
  • IEnumAndCount<T> instead of IEnumerable<T>

using System.Collections.Generic;
using System.Collections.ObjectModel;
namespace HQ.Util.Wpf.WpfUtil.Collections
{
    public interface IEnumAndCount<out T> : IEnumerable<T>
    {
        Count { get; }
    }

    public class ObservableCollectionForFastEnumDerivedCount<T> : 
        ObservableCollection<T>, IEnumAndCount<T>
    {
    }
}

Good luck !

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It may not yield the best performance, but you can use LINQ to count the elements in an IEnumerable:

public int GetEnumerableCount(IEnumerable Enumerable)
{
    return (from object Item in Enumerable
            select Item).Count();
}
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I use IEnum<string>.ToArray<string>().Length and it works fine.

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This should work fine. IEnumerator<Object>.ToArray<Object>.Length –  din Aug 19 '13 at 18:45

I used such way inside a method to check the passed in IEnumberable content

if( iEnum.Cast<Object>().Count() > 0) 
{

}

Inside a method like this:

GetDataTable(IEnumberable iEnum)
{  
    if (iEnum != null && iEnum.Cast<Object>().Count() > 0) //--- proceed further

}
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