108

Working with a collection I have the two ways of getting the count of objects; Count (the property) and Count() (the method). Does anyone know what the key differences are?

I might be wrong, but I always use the Count property in any conditional statements because I'm assuming the Count() method performs some sort of query against the collection, where as Count must have already been assigned prior to me 'getting.' But that's a guess - I don't know if performance will be affected if I'm wrong.

EDIT: Out of curiosity then, will Count() throw an exception if the collection is null? Because I'm pretty sure the Count property simply returns 0.

1
  • 9
    Both will throw an exception for null collections, because both are trying to apply the . operator to something that is null.
    – AaronLS
    Commented Oct 3, 2012 at 16:17

10 Answers 10

142

Decompiling the source for the Count() extension method reveals that it tests whether the object is an ICollection (generic or otherwise) and if so simply returns the underlying Count property:

So, if your code accesses Count instead of calling Count(), you can bypass the type checking - a theoretical performance benefit but I doubt it would be a noticeable one!

// System.Linq.Enumerable
public static int Count<TSource>(this IEnumerable<TSource> source)
{
    checked
    {
        if (source == null)
        {
            throw Error.ArgumentNull("source");
        }
        ICollection<TSource> collection = source as ICollection<TSource>;
        if (collection != null)
        {
            return collection.Count;
        }
        ICollection collection2 = source as ICollection;
        if (collection2 != null)
        {
            return collection2.Count;
        }
        int num = 0;
        using (IEnumerator<TSource> enumerator = source.GetEnumerator())
        {
            while (enumerator.MoveNext())
            {
                num++;
            }
        }
        return num;
    }
}
3
  • 15
    +1 for taking the initiative to reverse engineer this, very helpful.
    – Polynomial
    Commented Nov 1, 2011 at 16:24
  • 7
    However, bear in mind that in 3.5 Count() doesn't check for the non-generic ICollection interface. This was only added in .NET 4. Both 3.5 and 4 check for the generic ICollection<T> interface.
    – thecoop
    Commented Nov 1, 2011 at 17:01
  • 4
    calling count on a sequence with no elements will throw an exception. But Count() will work fine.
    – amesh
    Commented Aug 13, 2013 at 15:20
43

Performance is only one reason to choose one or the other. Choosing .Count() means that your code will be more generic. I've had occasions where I refactored some code that no longer produced a collection, but instead something more generic like an IEnumerable, but other code broke as a result because it depended on .Count and I had to change it to .Count(). If I made a point to use .Count() everywhere, the code would likely be more reusable and maintainable. Usually opting to utilize the more generic interfaces if you can get away with it is your best bet. By more generic, I mean the simpler interface that is implemented by more types, and thus netting you greater compatibility between code.

I'm not saying .Count() is better, I'm just saying there's other considerations that deal more with the reusability of the code you are writing.

3
  • 3
    +1 Valuable addition to the discussion. Some code I am maintaining just broke because the property .Count did not survive a version upgrade of the HtmlAgilityPack. Commented Feb 11, 2014 at 15:18
  • 2
    That may be double edged sword. What if some day someone tries to modify the IEnumerable to be a true generator. Looking at the codebase I see lot of places where the .Count() assumes that the enumerable can be iterated multiple times
    – bashrc
    Commented May 30, 2017 at 6:37
  • @bashrc True. I think if we are considering developer's code changing versus framework code changing, it's more likely the developer code would change. If that kind of change was made in the framework, it'd break alot of things. Traditionally they introduce new collections/interfaces in these cases so that developer's can migrate as desired.
    – AaronLS
    Commented May 30, 2017 at 13:47
24

The .Count() method might be smart enough, or know about the type in question, and if so, it might use the underlying .Count property.

Then again, it might not.

I would say it is safe to assume that if the collection has a .Count property itself, that's going to be your best bet when it comes to performance.

If the .Count() method doesn't know about the collection, it will enumerate over it, which will be an O(n) operation.

2
6

Short Version: If you have the choice between a Count property and a Count() method always choose the property.

The difference is mainly around the efficiency of the operation. All BCL collections which expose a Count property do so in an O(1) fashion. The Count() method though can, and often will, cost O(N). There are some checks to try and get it to O(1) for some implementations but it's by no means guaranteed.

1
  • I think this answer is more reasonable to use count property
    – A.T.
    Commented Dec 11, 2019 at 9:40
5

The Count() method is the LINQ method that works on any IEnumerable<>. You would expect the Count() method to iterate over the whole collection to find the count, but I believe the LINQ code actually has some optimizations in there to detect if a Count property exists and if so use that.

So they should both do almost identical things. The Count property is probably slightly better since there doesn't need to be a type check in there.

5

Count() method is an extension method that iterates each element of an IEnumerable<> and returns how many elements are there. If the instance of IEnumerable is actually a List<>, so it's optimized to return the Count property instead of iterating all elements.

1
  • even when I have a List<>, I use Count() method to keep my code more generic. Its good when I'm refactoring my classes to use IEnumerable<> where there is no need of specific collection implementation.
    – AntonioR
    Commented Nov 1, 2011 at 16:21
4

Count() is there as an extension method from LINQ - Count is a property on Lists, actual .NET collection objects.

As such, Count() will almost always be slower, since it will enumerate the collection / queryable object. On a list, queue, stack etc, use Count. Or for an array - Length.

3

If there is a Count or Length property, you should always prefer that to the Count() method, which generally iterates the entire collection to count the number of elements within. Exceptions would be when the Count() method is against a LINQ to SQL or LINQ to Entities source, for example, in which case it would perform a count query against the datasource. Even then, if there is a Count property, you would want to prefer that, since it likely has less work to do.

0

The Count() method has an optimisation for ICollection<T> which results in the Count property being called. In this case there is probably no significant difference in performance.

There are types other than ICollection<T> which have more efficient alternatives to the Count() extension method though. This code analysis performance rule fires on the following types.

CA1829: Use Length/Count property instead of Enumerable.Count method

System.Array
System.Collections.Immutable.ImmutableArray<T>
System.Collections.ICollection
System.Collections.Generic.ICollection<T>
System.Collections.Generic.IReadOnlyCollection<T>

So, we should use Count and Length properties if they are available and fallback to the Count() extension method otherwise.

0

.Count is a property of a collection and gets the elements in the collection. Unlike .Count() which is an extension method for LINQ and counts the number of elements.

Generally .Count is faster than .Count() because it does not require the overhead of creating and enumerating a LINQ query.

It's better to use the .Count property unless you need the additional functionality provided by the .Count() method, such as the ability to specify a filtering predicate, e.g.

int count = numbers.Count(n => n.Id == 100);

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