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I am using some of the LINQ select stuff to create some collections, which return IEnumerable<T>.

In my case I need a List<T>, so I am passing the result to List<T>'s constructor to create one.

I am wondering about the overhead of doing this. The items in my collections are usually in the millions, so I need to consider this.

I assume, if the IEnumerable<T> contains ValueTypes, it's the worst performance.

Am I right? What about Ref Types? Either way there is also the cost of calling, List<T>.Add a million times, right?

Any way to solve this? Like can I "overload" methods like LINQ Select using extension methods)?

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Why do you need a List with a million items? Will your callers be doing anything other than enumerating? If not, then maybe the callers need to change to use IEnumerable<T>. –  John Saunders Jun 22 '09 at 16:53
Because I have 1M+ items or more. I didn't write the main API but there are some indexing here and there. –  Joan Venge Jun 22 '09 at 17:07
@Joan: I'd just suggest they revisit the question of whether they really need all million items to be in memory at once. It might be better to leave them in a database, for instance, or to do all processing in a single pass, permitting them to stay in an IEnumerable. Is the list actually modified after it's constructed? –  John Saunders Jun 22 '09 at 17:12
Basically when I have the list, I have to create a new sub list and modify those. So like: 10M elements -> turn into 1M -> do some operation -> resulting list. Elements are immutable and I get rid of the lists after I got the result I want, and numbers of figurative for this example. –  Joan Venge Jun 22 '09 at 17:16
@Joan: if they don't use features of List<T> beyond those of IEnumerable<T>, then they should certainly refactor. This is where ReSharper pays its keep: it will tell you about methods that could use a base class or interface instead. –  John Saunders Jun 23 '09 at 11:16

6 Answers 6

No, there's no particular penalty for the element type being value types, assuming you're using IEnumerable<T> instead of IEnumerable. You won't get any boxing going on.

If you actually know the size of the result beforehand (which the result of Select probably won't) you might want to consider creating the list with that size of buffer, then using AddRange to add the values. Otherwise the list will have to resize its buffer every time it fills it.

For instance, instead of doing:

Foo[] foo = new Foo[100];
IEnumerable<string> query = foo.Select(foo => foo.Name);
List<string> queryList = new List<string>(query);

you might do:

Foo[] foo = new Foo[100];
IEnumerable<string> query = foo.Select(x => x.Name);
List<string> queryList = new List<string>(foo.Length);

You know that calling Select will produce a sequence of the same length as the original query source, but nothing in the execution environment has that information as far as I'm aware.

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Downvoters: please provide reasons... –  Jon Skeet Jun 22 '09 at 17:06
The list itself wouldn't be modified just because you changed the contents of an object referred to by a reference within the list. Put it this way - if someone has a list of house addresses, does that list change if someone adds some furniture to a house? –  Jon Skeet Jun 22 '09 at 17:31
@Joan: Yes, it will. If you're working with a reference type, it's creating a new List of references, but they still point to the same original objects. If you want different behavior than that, you'll need to explicitly replace the full object in your new list. Ie: result[10] = new ResultType(5, result[10].Y, result[10].Z, ...); Alternatively, you'd need to do some form of deep copy operation where you clone the elements instead of just copying references to them. –  Reed Copsey Jun 22 '09 at 17:47
@Joan Venge: No. The two are pretty much identical. If you need a full, deep copy, you'll need to implement your own deep copying. With a reference type, that's going to mean 1 million constructor calls... Using Select isn't going to really change anything vs. just doing those directly. –  Reed Copsey Jun 22 '09 at 17:57
No, in every case the values in the sequence are copied - for value types, those values are the actual data (numbers etc). For reference types they're references. See pobox.com/~skeet/csharp/references.html –  Jon Skeet Jun 22 '09 at 18:24

It would be best to avoid the need for a list. If you can keep your caller using IEnumerable<T>, you will save yourself some headaches.

LINQ's ToList() will take your enumerable, and just construct a new List<T> directly from it, using the List<T>(IEnumerable<T>) constructor. This will be the same as making the list yourself, performance wise (although LINQ does a null check, as well).

If you're adding the elements yourself, use the AddRange method instead of the Add. ToList() is very similar to AddRange (since it's using the constructor which takes IEnumerable<T>), which typically will be your best bet, performance wise, in this case.

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Good explaination. –  Justin Niessner Jun 22 '09 at 17:04
Rats, half that message got cut. It was meant to say that IIRC Enumerable.ToList is typed to return List<T>, not IList<T>. –  Jon Skeet Jun 22 '09 at 17:12
What do you mean by "unless there is already a list there"? I'd expect Enumerable.ToList to always create a new, independent copy of the source data regardless of the type of the original sequence. –  Jon Skeet Jun 22 '09 at 17:33
@Joan Venge: No. It's a runtime check. The List<T> constructor which takes an IEnumerable does a cast to ICollection<T> (ie: ICollection<T> coll = source as ICollection<T>), and if it's an ICollection<T>, it uses the Count property directly to preallocate, then uses CopyTo instead of enumerating all of the elements. This potentially makes it faster if the source is a list (or any other ICollection<T> implementation). –  Reed Copsey Jun 22 '09 at 17:38
@VinneyK: Yes, it will always create a new list. –  Jon Skeet Dec 19 '12 at 18:39

Generally speaking, a method returning IEnumerable doesn't have to evaluate any of the items before the item is actually needed. So, theoretically, when you return an IEnumerable none of you items need to exist at that time.

So creating a list means that you will really need to evaluate items, get them and place them somewhere in memory (at least their references). There is nothing that can be done about this - if you really need to have a list.

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A number of other responders have already provided ideas for how to improve the performance of copying an IEnumerable<T> into a List<T> - I don't think that much can be added on that front.

However, based on what you have described you need to do with the results, and the fact that you get rid of the list when you're done (which I presume means that the intermediate results are not interesting) - you may want to consider whether you really need to materialize a List<T>.

Rather than creating a List<T> and operating on the contents of that list - consider writing a lazy extension method for IEnumerable<T> that performs the same processing logic. I've done this myself in a number of cases, and writing such logic in C# is not so bad when using the [yield return][1] syntax supported by the compiler.

This approach works well if all you're trying to do is visit each item in the results and collection some information from it. Often, what you need to do is just visit each element in the collection on demand, do some processing with it, and then move on. This approach is generally more scalable and performant that creating a copy of the collection just to iterate over it.

Now, this advice may not work for you for other reasons, but it's worth considering as an alternative to finding the most efficient way to materialize a very large list.

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Don't pass an IEnumerable to the List constructor. IEnumerable has a ToList() method, which can't possibly do worse than that, and has nicer syntax (IMHO).

That said, that only changes the answer to your question to "it depends" - in particular, it depends on what the IEnumerable actually is behind the scenes. If it happens to be a List already, then ToList will effectively be free, of course will go much faster than if it were another type. It's still not super-fast.

The best way to solve this, of course, is to try to figure out how to do your processing on an IEnumerable rather than a List. That may not be possible.

Edit: Some people in the comments are debating whether or not ToList() will actually be any faster when called on a List than if not, and whether ToList() will be any faster than the list constructor. At this point, speculating is getting pointless, so here's some code:

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

public static class ToListTest
    public static int Main(string[] args)
        List<int> intlist = new List<int>();
        for (int i = 0; i < 1000000; i++)

        IEnumerable<int> intenum = intlist;

        for (int i = 0; i < 1000; i++)
            List<int> foo = intenum.ToList();

        return 0;

Running this code with an IEnumerable that's really a List goes about 6-10 times faster than if I replace it with a LinkedList or Stack (on my pokey 2.4 GHz P4, using Mono 1.2.6). Conceivably this could be due to some unfortunate interaction between ToList() and the particular implementations of LinkedList or Stack's enumerations, but at least the point remains: speed will depend on the underlying type of the IEnumerable. That said, even with a List as the source, it still takes 6 seconds for me to make 1000 ToList() calls, so it's far from free.

The next question is whether ToList() is any more intelligent than the List constructor. The answer to that turns out to be no: the List constructor is just as fast as ToList(). In hindsight, Jon Skeet's reasoning makes sense - I was just forgetting that ToList() was an extension method. I still (much) prefer ToList() syntactically, but there's no performance reason to use it.

So the short version is that the best answer is still "don't convert to a List if you can avoid it". Barring that, actual performance will depend drastically on what the IEnumerable actually is, but at best it'll be sluggish, as opposed to glacial. I've amended my original answer to reflect this.

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IEnumerable<T> doesn't have ToList in itself - it's just that there's an extension method to do the conversion. That extension method can't have any more (or less) information than the List<T> constructor, so I fail to see any reason to suppose it would perform better or worse. –  Jon Skeet Jun 22 '09 at 17:03
(And I don't believe that calling the ToList extension method on an existing List<T> will be free. It shouldn't be, because it should create an independent copy of the sequence's data.) –  Jon Skeet Jun 22 '09 at 17:04
@Jon: in contrast to the constructor which MUST copy all items into the list, ToList can try to cast the IList<T> first and only actually create a new list if really required. Therefore, depending on that that IEnumerable<T> instance is, it may avoid copying anything altogether. –  Lucero Jun 22 '09 at 17:10
I've just checked, and the docs aren't as clear as I'd like them to be - but ToList is declared to return List<T>, not just IList<T>. I also strongly believe that any implementation which doesn't create an independent copy would lead to widespread confusion due to the inconsistency. –  Jon Skeet Jun 22 '09 at 17:32
No, I mean that changing one list (e.g. to remove an item) won't affect the other. –  Jon Skeet Jun 22 '09 at 18:03

From reading the various comments and the question I get the following requirements

for a collection of data you need to run through that collection, filter out some objects and then perform some transformation on the remaining objects. If thats the case you can do something like this:

var result = from item in collection
             where item.Id > 10 //or some more sensible condition
             select Operation(item);

and if you need to the perform more filtering and transformation you can nest your LINQ queries like

var result = from filteredItem in (from item in collection
                                  where item.Id > 10 //or some more sensible condition
                                  select Operation(item))
                 where filteredItem.SomePropertyAvailableAfterFirstTransformation == "new"
                 select SecondTransfomation(filteredItem);
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Thanks in your second example. Would it be faster if the nested Select was outside the outer Select? So like: collection = ... select Operation(item) from filtereditem in collection ... ? –  Joan Venge Jun 23 '09 at 15:08
The order of the queries will depend on the work done in each, the more work done early on the better. This is basically the rule of moving work from inner loops to outer loops when ever possible. (note: nested queries are not nested loops but the logic still applies since the list of elements passed to the second query will be limited by the where cluase in the first query) –  Rune FS Jun 24 '09 at 5:26

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