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Is the Linq Count() method any faster or slower than List<>.Count or Array.Length?

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6  
The easiest way to know is to try it. Wrap both in calls to the appropriate methods on StopWatch, do it a few million times, and you'll know. –  Eric Lippert Jun 11 '09 at 15:04
1  
It's probably worth nothing that there won't be a noticeable difference in speed unless we're talking about some seriously large collections. Just use whichever one is easier to read/maintain. –  Hardwareguy Jun 11 '09 at 22:08

6 Answers 6

up vote 42 down vote accepted

In general Slower. LINQ's Count in general is an O(N) operation while List.Count and Array.Length are both guaranteed to be O(1).

However it some cases LINQ will special case the IEnumerable<T> parameter by casting to certain interface types such as IList<T> or ICollection<T>. It will then use that Count method to do an actual Count() operation. So it will go back down to O(1). But you still pay the minor overhead of the cast and interface call.

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@Marc, I added that cavaet. –  JaredPar Jun 11 '09 at 14:04
    
I'm not sure, but I think if List.Count() is run on an IQueryable it will execute the select count(*) sql command. but if List.Count is run it will enumerate through all of the items and then return the count. If the latter, List.Count() would be faster most of the time. –  Jose Jun 11 '09 at 22:00
    
@Jared, Marcs answer is more accurate, the check is only done for ICollection<T>, arrays, HashSet , Dictionary , List , LinkedList and Queue all implement ICollection<T>. The old System.Collection classes do not, but then again the do not implement IEnumerable<T> anyway so they can not be used with LINQ. –  Sam Saffron Jun 12 '09 at 6:09
    
@sambo99, Yeah, I should have added the generic specifiers (was being lazy and didn't think of the ramifications of how that would affect my answer). added shortly. –  JaredPar Jun 12 '09 at 14:19

Marc has the right answer but the devil is in the detail.

On my machine:

  • For arrays .Length is about 100 times faster than .Count()
  • For Lists .Count is about 10 times faster than .Count() - Note: I would expect similar performance from all Collections that implement IList<T>

Arrays start off slower since .Length involves only a single operation, .Count on arrays involves a layer of indirection. So .Count on arrays starts off 10x slower (on my machine), which could be one of those reasons the interface is implemented explicitly. Imagine if you had an object with two public properties, .Count and .Length. Both do the exact same thing but .Count is 10X slower.

Of course non of this really makes much of a difference since you would have to be counting your arrays and lists millions of times a second to feel a performance hit.

Code:

    static void TimeAction(string description, int times, Action func) {
        var watch = new Stopwatch();
        watch.Start();
        for (int i = 0; i < times; i++) {
            func();
        }
        watch.Stop();
        Console.Write(description);
        Console.WriteLine(" Time Elapsed {0} ms", watch.ElapsedMilliseconds);
    } 

    static void Main(string[] args) {
        var array = Enumerable.Range(0, 10000000).ToArray();
        var list = Enumerable.Range(0, 10000000).ToArray().ToList();

        // jit
        TimeAction("Ignore and jit", 1 ,() =>
        {
            var junk = array.Length;
            var junk2 = list.Count;
            array.Count();
            list.Count();
        });


        TimeAction("Array Length", 1000000, () => {
            var tmp1 = array.Length;
        });

        TimeAction("Array Count()", 1000000, () =>
        {
            var tmp2 = array.Count();
        });

        TimeAction("Array Length through cast", 1000000, () =>
        {
            var tmp3 = (array as ICollection<int>).Count;
        });


        TimeAction("List Count", 1000000, () =>
        {
            var tmp1 = list.Count;
        });

        TimeAction("List Count()", 1000000, () =>
        {
            var tmp2 = list.Count();
        });

        Console.ReadKey();
    }

Results:

Array Length Time Elapsed 3 ms
Array Count() Time Elapsed 264 ms
Array Length through cast Time Elapsed 16 ms
List Count Time Elapsed 3 ms
List Count() Time Elapsed 18 ms
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Luckily collection.Count/Length is more readable than collection.Count(). Rare cases where prettier code is more performant :P –  nawfal Apr 28 '13 at 11:23

The Enumerable.Count() method checks for ICollection<T>, using .Count - so in the case of arrays and lists, it is not much more inefficient (just an extra level of indirection).

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Actually with arrays you get 2 layers of indirection, see my answer :p –  Sam Saffron Jun 12 '09 at 6:36

I believe that if you call Linq.Count() on either an ICollection or IList (like an ArrayList or List) then it will just return the Count property's value. So the performance will be about the same on plain collections.

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ArrayList is not IEnumerable<T> so you can not execute LINQ extension methods on it anyway. the check is only done for ICollection<T> –  Sam Saffron Jun 12 '09 at 6:10

I would say it depends on the List. If it is an IQueryable that is a table in a db somewhere then Count() will be much faster because it doesn't have to load all of the objects. But if the list is in-memory i would guess that the Count property would be faster if not about the same.

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Some additional info - LINQ Count - the difference between using it and not can be huge - and this doesn't have to be over 'large' collections either. I have a collection formed from linq to objects with about 6500 items (big.. but not huge by any means) . Count() in my case takes several seconds. Converting to a list (or array, whatver) the count is then virtually immediate. Having this count in an inner loop means the impact could be huge. Count enumerates through everything. An array and a list are both 'self aware' of their lengths and do not need to enumerate them. Any debug statements (log4net for ex) that reference this count() will also then slow everything down considerably more. Do yourself a favor and if you need to reference this often save the count size and only call it once on a LINQ collection unless you convert it to a list and then can reference away without a performance hit.

Here is a quick test of what I was talking about above. Note every time we call Count() our collection size changes.. hence evaluation happens, which is more than an expected 'count' operation. Just something to be aware of : )

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

    namespace LinqTest
    {
        class TestClass
        {
            public TestClass()
            {
                CreateDate = DateTime.Now;
            }
            public DateTime CreateDate;
        }

        class Program
        {

            static void Main(string[] args)
            {
                //Populate the test class
                List list = new List(1000);
                for (int i=0; i<1000; i++)
                {
                    System.Threading.Thread.Sleep(20);
                    list.Add(new TestClass());
                    if(i%100==0)
                    { 
                        Console.WriteLine(i.ToString() +  " items added");
                    }
                }

                //now query for items 
                var newList = list.Where(o=> o.CreateDate.AddSeconds(5)> DateTime.Now);
                while (newList.Count() > 0)
                {
                    //Note - are actual count keeps decreasing.. showing our 'execute' is running every time we call count.
                    Console.WriteLine(newList.Count());
                    System.Threading.Thread.Sleep(500);
                }
            }
        }
    }

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2  
list.Where returns an IEnumerable so you get no shortcuts with Count() ... if you materialized it you would see pretty good perf (eg: list.Where(o=> o.CreateDate.AddSeconds(5)> DateTime.Now).ToList()) –  Sam Saffron May 9 '12 at 2:37

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