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I have code that needs to know that a collection should not be empty or contain only one item.

In general, I want an extension of the form:

bool collectionHasAtLeast2Items = collection.AtLeast(2);

I can write an extension easily, enumerating over the collection and incrementing an indexer until I hit the requested size, or run out of elements, but is there something already in the LINQ framework that would do this? My thoughts (in order of what came to me) are::

bool collectionHasAtLeast2Items = collection.Take(2).Count() == 2; or

bool collectionHasAtLeast2Items = collection.Take(2).ToList().Count == 2;

Which would seem to work, though the behaviour of taking more elements than the collection contains is not defined (in the documentation) Enumerable.Take Method , however, it seems to do what one would expect.

It's not the most efficient solution, either enumerating once to take the elements, then enumerating again to count them, which is unnecessary, or enumerating once to take the elements, then constructing a list in order to get the count property which isn't enumerator-y, as I don't actually want the list.

It's not pretty as I always have to make two assertions, first taking 'x', then checking that I actually received 'x', and it depends upon undocumented behaviour.

Or perhaps I could use:

bool collectionHasAtLeast2Items = collection.ElementAtOrDefault(2) != null;

However, that's not semantically-clear. Maybe the best is to wrap that with a method-name that means what I want. I'm assuming that this will be efficient, I haven't reflected on the code.

Some other thoughts are using Last(), but I explicitly don't want to enumerate through the whole collection.

Or maybe Skip(2).Any(), again not semantically completely obvious, but better than ElementAtOrDefault(2) != null, though I would think they produce the same result?

Any thoughts?

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Why not create a collection, load some data, and test? –  Blam May 14 '12 at 12:24
2  
The page you link to has a remark Take<TSource> enumerates source and yields elements until count elements have been yielded or source contains no more elements. that can be read as "if the source list is shorter than the count, then just that short list is returned" –  Hans Kesting May 14 '12 at 12:37
    
@HansKesting - it probably said that until the lawyers got ahold of it :) –  Mark Schultheiss May 14 '12 at 12:46
    
@HansKesting: Yes, probably you're right, thanks. –  nicodemus13 May 14 '12 at 13:15
    
By the way, Take(n).Count() won't enumerate twice: the Take method streams its results lazily, so the most you'd need is a single pass through n items. –  LukeH May 14 '12 at 15:04

3 Answers 3

up vote 4 down vote accepted
public static bool AtLeast<T>(this IEnumerable<T> source, int count)
{
    // Optimization for ICollection<T>
    var genericCollection = source as ICollection<T>;
    if (genericCollection != null)
        return genericCollection.Count >= count;

    // Optimization for ICollection
    var collection = source as ICollection;
    if (collection != null)
        return collection.Count >= count;

    // General case
    using (var en = source.GetEnumerator())
    {
        int n = 0;
        while (n < count && en.MoveNext()) n++;
        return n == count;
    }
}
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The code for general case can be wrapped into a LINQ method, can it not? –  abatishchev May 14 '12 at 12:40
    
@abatishchev, yes it could, but there's less overhead if you manipulate the enumerator directly (yes, it's a micro-optimization...) –  Thomas Levesque May 14 '12 at 12:42
    
Then the whole code can be written without LINQ at all, that will be a bit faster, but copyright issue can appear :) –  abatishchev May 14 '12 at 12:43
    
Thanks, that's a good hand-crafted approach, though I think I'll go with Skip(n).Any(), as I'd prefer to use the built-in behaviour where I can and that most clearly shows my intent- I think. Take() seems to be faster than Skip() however, but that seems a micro-optimisation. –  nicodemus13 May 14 '12 at 13:39
    
Reflecting on the Count() code, which is very similar to yours, it also adds in a 'checked' statement around the n++ part. Also, probably should have a guard (count >= 0). –  nicodemus13 May 14 '12 at 14:00

You can use Count() >= 2, if you sequence implements ICollection?


Behind the scene, Enumerable.Count() extension method checks does the sequence under loop implements ICollection. If it does indeed, Count property returned, so target performance should be O(1).

Thus ((IEnumerable<T>)((ICollection)sequence)).Count() >= x also should have O(1).

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I think he is referring to a higher performance method other than Count(). –  ericosg May 14 '12 at 12:19
1  
@ericosg: My exploration shows O(1) performance. –  abatishchev May 14 '12 at 12:25
    
I think this is a good method, as given the limitations of IEnumerable the best you can hope for in the most general case of that is that you only enumerate two items. Getting optimisation for ICollection 'for free' is a nice win. –  Matthew Walton May 14 '12 at 12:32
1  
@abatishchev, it's O(1) if the collection implements ICollection, but not in the general case. In some cases it might be expensive to perform a full count when you only need to check if there are at least 2 items... –  Thomas Levesque May 14 '12 at 12:34
    
@ThomasLevesque: Agree, Kendall's answer uncovers that better. –  abatishchev May 14 '12 at 12:37

You could use Count, but if performance is an issue, you will be better off with Take.

bool atLeastX = collection.Take(x).Count() == x;

Since Take (I believe) uses deferred execution, it will only go through the collection once.

abatishchev mentioned that Count is O(1) with ICollection, so you could do something like this and get the best of both worlds.

IEnumerable<int> col;
// set col
int x;
// set x
bool atLeastX;
if (col is ICollection<int>)
{
    atLeastX = col.Count() >= x;
}
else
{
    atLeastX = col.Take(x).Count() == x;
}

You could also use Skip/Any, in fact I bet it would be even faster than Take/Count.

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I always assumed O(1) is as fast as it can get, is it wrong ? (i'm referring the "...it would be even faster" part) –  Alex May 14 '12 at 12:33
    
Updated, sorry for the confusion. –  Kendall Frey May 14 '12 at 12:35
    
@alex: Actually it will be O(1) + C1 <> O(1) + C2, were C1, C2 are constants, which can be different. So resulting performance is not depended to the number of elements but on underlying code only. –  abatishchev May 14 '12 at 12:35
    
@abatishchev That's what I mean: I always assumed that, Count() being O(1) [+C, ofc], there is no faster way to perform this kind of check. Now I read that Skip/Any approach might be even faster, and doubts arise :) –  Alex May 14 '12 at 12:38
    
@KendallFrey: This was one of my solutions, but I think using Skip(n).Any() is much more efficient, and slightly clearer about the meaning. I am reluctant to use Count() except in situations where I actually care how many elements are in the enumeration. –  nicodemus13 May 14 '12 at 13:21

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