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I've got an IEnumerable<T>, and I need a copy of it. Anything that implements IEnumerable<T> will do just fine. What's the cheapest way to copy it? .ToArray() maybe?

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5 Answers 5

up vote 9 down vote accepted

ToArray is not necessarily faster than ToList. Just use ToList.

The point is as long as you don't know the number of elements of the original sequence before enumerating, you end up with resizing an array and adding elements to it like a List<T> does, so ToArray will have to do the same thing a List<T> does anyway. Besides, ToList gives you a List<T> and that's nicer than a raw array.

Of course, if you know the concrete type of the IEnumerable<T> instance, there can be faster methods, but that's not germane to the point.

Side note: using an array (unless you have to) is arguably a micro-optimization and should be avoided most of the time.

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To note they are virtually equivalent. –  Vadim Dec 31 '10 at 4:45
@Yads: exactly. –  Mehrdad Afshari Dec 31 '10 at 4:47
+1. In fact, Mono's Enumerable.ToArray uses new List<TSource> (source).ToArray (), unless the IEnumerable<T> happens to be a ICollection<T>. I would not be surprised if MS's was similar. –  Matthew Flaschen Dec 31 '10 at 4:59
How "micro"? I might want to use this in my NP-complete algorithm... every optimization helps (it's horrendously slow). –  Mark Dec 31 '10 at 5:52
I know this is an old post, but I'd like to point out that using a List<> instead of an array is if anything an even worse "microoptimization". To wit: Array's are nasty due to mutability issues; but Lists are even worse - even the size is mutable. They're possibly very slightly faster in construction but slower in the much more common read-heavy usage; and List<> has more GC pressure. So if anything, by default both for conservative program correctness and perfomance, the default choice should be array over List<>. –  Eamon Nerbonne Jul 23 '12 at 23:25

Enumerable::ToArray and Enumerable::ToList ultimately use the same technique to receive elements from the source into an internal array buffer and, once the size of that buffer is reached, they will allocate a new buffer double the size, memcpy over and continue adding elements, repeating this process until enumeration over the source is complete. The difference in the end is that ToArray, which uses a Buffer<T> implementation internally, must then allocate an exactly sized Array and copy the elements into it before returning the result. On the other hand, ToList just needs to return the List<T> with a potentially (likely) only partially filled array buffer inside of it.

Both implementations also have an optimization where if the source IEnumerable is an ICollection they will actually allocate the exact right buffer size to begin with using ICollection::Count and then use ICollection::CopyTo from the source to fill their buffers.

In the end you will find that they perform nearly identically in most situations, but the List<T> is technically a "heavier" class to hang on to in the end and the ToArray has that extra allocate + memcpy at the end (if the source isn't an ICollection) to be able to hand back the exactly right sized array. I usually stick with ToList myself unless I know I need to pass the result to something that requires an array like say maybe Task::WaitAll.

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I was about to suggest the possibility of using .AsParallel().ToList() if you have TPL at your disposal, but informal testing on my dual-core laptop shows it to be 7x slower than just .ToList(). So, stick with Mehrdad's answer.

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+1 That's potentially a good alternative, and depending on the nature of the receiver object, it can be a lot faster, but that falls into "not germane to the point" category. –  Mehrdad Afshari Dec 31 '10 at 6:07

The second-to-cheapest way is to say new List<T>(myEnumerable).ToArray(). The cheapest way is to use either .ToArray() (from LINQ) or, if you don't have C# 3.5, to create your own buffer and add to it while doubling its size, then trim it at the end.

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I know this is pretty old ...

Why couldn't you do something like this ...

IEnumerable<T> original = {...insert code here to populate...};

IEnumerable<T> copy = (from row in original select row);

I've used this method before to defer loading of the copy and its elements until I actually need them, plus, I don't change the underlying data type of "original" casting it to a List type.

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An identity select isn't really giving you anything here. This isn't really functionally different from just copying the reference to the other IEnumerable, other than that this adds a bit of extra overhead at run time and prevents casting to the underlying type. If you want a snapshot of what the sequence looks like at one point in time ToList is the right approach. If you don't, and you want a sequence that is generated in the same manor as the other sequence, just copy the reference itself; no need to do anything more. –  Servy Sep 19 '13 at 20:51

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