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In general I tend to use IEnumerable<> as the type when I pass in parameters. However according to BenchmarkDotNet:

[Benchmark]
public void EnumeratingCollectionsBad()
{
    var list = new List<string>();
    for (int i = 0; i < 1000; i++)
    {
        Bad(list);
    }
}

[Benchmark]
public void EnumeratingCollectionsFixed()
{
    var list = new List<string>();
    for (int i = 0; i < 1000; i++)
    {
        Fixed(list);
    }
}

private static void Bad(IEnumerable<string> list)
{
    foreach (var item in list)
    {
    }
}

private static void Fixed(List<string> list)
{
    foreach (var item in list)
    {
    }
}
Method Job Runtime Mean Error StdDev Median Gen 0 Gen 1 Gen 2 Allocated
EnumeratingCollectionsBad .NET Core 3.1 .NET Core 3.1 17.802 us 0.3670 us 1.0764 us 17.338 us 6.3782 - - 40032 B
EnumeratingCollectionsFixed .NET Core 3.1 .NET Core 3.1 5.015 us 0.1003 us 0.2535 us 4.860 us - - - 32 B

Why would the interface version be so much slower (and memory intensive) than the concrete version?

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7
  • 2
    @UnholySheep: That's at least not the majority of what's going on here.
    – Jon Skeet
    Jan 4, 2021 at 21:58
  • 1
    @GSerg: Nope, that's not a dupe of this one either. That refers to iterating over different types - here there's a List<string> (and an empty one at that) in both cases.
    – Jon Skeet
    Jan 4, 2021 at 22:05
  • 1
    @JonSkeet I don't see enumeration of different types being compared there? The most upvoted answer also looks pretty much like yours.
    – GSerg
    Jan 4, 2021 at 22:10
  • 3
    @GSerg: In other words, the actual type of the iterable at execution time is different in that question, whereas in this case the actual type is List<string> in both cases.
    – Jon Skeet
    Jan 4, 2021 at 22:13
  • 2
    @GSerg: Ah, yes, I see what you mean now; sorry for not looking at the right answer. But I'd still say it's not a duplicate question - that most upvoted answer actually looks to be irrelevant to the question being asked, IMO. It states facts, but they're not the important ones for that question, whereas they're the important ones on this question.
    – Jon Skeet
    Jan 4, 2021 at 22:17

1 Answer 1

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40

Why would the interface version be so much slower (and memory intensive) than the concrete version?

When it uses the interface, the iteration has to allocate an object on the heap... whereas List<T>.GetEnumerator() returns a List<T>.Enumerator, which is a struct, and doesn't require any additional allocation. List<T>.Enumerator implements IEnumerator<T>, but because the compiler knows about the concrete type directly, it doesn't need to be boxed.

So even though both methods are operating on an object of the same type (a List<T>) one calls this method:

IEnumerator<T> GetEnumerator()

... and one calls this:

List<T>.Enumerator GetEnumerator()

The first almost certainly just delegates to the second, but has to box the result because IEnumerator<T> is a reference type.

The fact that List<T>.GetEnumerator() returns a mutable struct can have some surprising consequences but it's designed precisely to have the performance benefit you're seeing here.

The use of an interface vs a concrete type can itself have some very minor performance penalties, but the primary cause here is the difference in allocation.

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4
  • 1
    @00110001: No, that's not the difference. That wouldn't affect allocation. The difference is in whether the iterator is boxed or not.
    – Jon Skeet
    Jan 4, 2021 at 23:14
  • 2
    I failed the quiz in the blog post. :-)
    – Theodor Zoulias
    Jan 4, 2021 at 23:30
  • I use IEnumerable<T> for parameters to indicate that the collection is read only and can't be added to/removed from (though it's not good enough to stop people from modifying objects in the collection...)
    – ldam
    Jan 11, 2021 at 18:49
  • @ldam: And that's almost always fine - but it does come with a performance penalty, as abstraction often does.
    – Jon Skeet
    Jan 11, 2021 at 22:52

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