I came across this implementation in Enumerable.cs by reflector.

public static TSource Single<TSource>(this IEnumerable<TSource> source, Func<TSource, bool> predicate)
    //check parameters
    TSource local = default(TSource);
    long num = 0L;
    foreach (TSource local2 in source)
        if (predicate(local2))
            local = local2;
            num += 1L;
            //I think they should do something here like:
            //if (num >= 2L) throw Error.MoreThanOneMatch();
            //no necessary to continue
    //return different results by num's value

I think they should break the loop if there are more than 2 items meets the condition, why they always loop through the whole collection? In case of that reflector disassembles the dll incorrectly, I write a simple test:

class DataItem
   private int _num;
   public DataItem(int num)
      _num = num;

   public int Num
      get{ Console.WriteLine("getting "+_num); return _num;}
var source = Enumerable.Range(1,10).Select( x => new DataItem(x));
var result = source.Single(x => x.Num < 5);

For this test case, I think it will print "getting 0, getting 1" and then throw an exception. But the truth is, it keeps "getting 0... getting 10" and throws an exception. Is there any algorithmic reason they implement this method like this?

EDIT Some of you thought it's because of side effects of the predicate expression, after a deep thought and some test cases, I have a conclusion that side effects doesn't matter in this case. Please provide an example if you disagree with this conclusion.

  • @The Smartest: See my "by hand" decoding to C# – Artur Mustafin Jan 28 '11 at 8:07
  • @The Smartest: You should use First or FirstOrDefault instead, it is expected by the BCL writers, i believe – Artur Mustafin Jan 28 '11 at 8:49
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    Mr. Crazy went through this question and downvoted all answers... – Cheng Chen Jan 28 '11 at 8:53
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    Enumerable.cs is part of System.Linq which is in System.Core.dll, part of the BCL. Is this library released under a permissive license or is it proprietary? I believe (but I'm not 100% sure) that it is proprietary. Please don't post proprietary code - people who read this cant' contribute to projects like Mono. – Michael Shimmins Jan 28 '11 at 9:27
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    @Michael: this isn't based on the MS-RSL license, it's based on the binary. Indeed, even if it were, it's irrelevant: whatever terms it has are contract terms for the licensee - not some third party such as mono - they don't even have any license, most likely. Given the extent and the rephrasing and selection and the minute scope - it's hard to argue this is relevant. I seriously doubt mono & microsoft will ever face each other in a courtroom based on the non-patented implementation of an obvious, trivial and very short algorithm, so let's not get carried away here... – Eamon Nerbonne Jan 28 '11 at 10:13

Yes, I do find it slightly strange especially because the overload that doesn't take a predicate (i.e. works on just the sequence) does seem to have the quick-throw 'optimization'.

In the BCL's defence however, I would say that the InvalidOperation exception that Single throws is a boneheaded exception that shouldn't normally be used for control-flow. It's not necessary for such cases to be optimized by the library.

Code that uses Single where zero or multiple matches is a perfectly valid possibility, such as:

     var item = source.Single(predicate);


should be refactored to code that doesn't use the exception for control-flow, such as (only a sample; this can be implemented more efficiently):

var firstTwo = source.Where(predicate).Take(2).ToArray();

if(firstTwo.Length == 1) 
    // Note that this won't fail. If it does, this code has a bug.

In other words, we should leave the use of Single to cases when we expect the sequence to contain only one match. It should behave identically to Firstbut with the additional run-time assertion that the sequence doesn't contain multiple matches. Like any other assertion, failure, i.e. cases when Single throws, should be used to represent bugs in the program (either in the method running the query or in the arguments passed to it by the caller).

This leaves us with two cases:

  1. The assertion holds: There is a single match. In this case, we want Single to consume the entire sequence anyway to assert our claim. There's no benefit to the 'optimization'. In fact, one could argue that the sample implementation of the 'optimization' provided by the OP will actually be slower because of the check on every iteration of the loop.
  2. The assertion fails: There are zero or multiple matches. In this case, we do throw later than we could, but this isn't such a big deal since the exception is boneheaded: it is indicative of a bug that must be fixed.

To sum up, if the 'poor implementation' is biting you performance-wise in production, either:

  1. You are using Single incorrectly.
  2. You have a bug in your program. Once the bug is fixed, this particular performance problem will go away.

EDIT: Clarified my point.

EDIT: Here's a valid use of Single, where failure indicates bugs in the calling code (bad argument):

public static User GetUserById(this IEnumerable<User> users, string id)
     if(users == null)
        throw new ArgumentNullException("users");

     // Perfectly fine if documented that a failure in the query
     // is treated as an exceptional circumstance. Caller's job 
     // to guarantee pre-condition.        
     return users.Single(user => user.Id == id);    
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    While I do agree that the user's code should be fixed, there's no sane reason to me why a library method should not fail as soon as possible when it can do so with no extra effort. This seems like a trivial thing to me. – Jeff Mercado Jan 28 '11 at 8:13
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    @Jeff M: It's not meant to fail - a failure is a bug. When it doesn't fail, it performs faster without the 'optimization'. – Ani Jan 28 '11 at 8:14
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    I disagree: the method is documented to throw an exception by design when there are duplicate predicate matches. Writing your code according to the intended design of the method isn't a bug in your code. – Amy Jan 28 '11 at 8:28
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    @stakx: Aren't you just restating my point? – Ani Jan 28 '11 at 8:51
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    I would imagine this is the correct answer. Throwing late is optimised for the success case which seems fair as (a) Single is basically First with an assertion that it is the only one and assertions are expected to succeed, and (b) SEH is painfully slow so there is rarely a point to optimising a path that always results in an exception being thrown. – Greg Beech Jan 28 '11 at 9:30

I got some very good feedback to my answer, which has made me re-think. Thus I will first provide the answer that states my "new" point of view; you can still find my original answer just below. Make sure to read the comments in-between to understand where my first answer misses the point.

New answer:

Let's assume that Single should throw an exception when it's pre-condition is not met; that is, when Single detects than either none, or more than one item in the collection matches the predicate.

Single can only succeed without throwing an exception by going through the whole collection. It has to make sure that there is exactly one matching item, so it will have to check all items in the collection.

This means that throwing an exception early (as soon as it finds a second matching item) is essentially an optimization that you can only benefit from when Single's pre-condition cannot be met and when it will throw an exception.

As user CodeInChaos says clearly in a comment below, the optimization wouldn't be wrong, but it is meaningless, because one usually introduces optimizations that will benefit correctly-working code, not optimizations that will benefit malfunctioning code.

Thus, it is actually correct that Single could throw an exception early; but it doesn't have to, because there's practically no added benefit.

Old answer:

I cannot give a technical reason why that method is implemented the way it is, since I didn't implement it. But I can state my understanding of the Single operator's purpose, and from there draw my personal conclusion that it is indeed badly implemented:

My understanding of Single:

What is the purpose of Single, and how is it different from e.g. First or Last?

Using the Single operator basically expresses one's assumption that exactly one item must be returned from the collection:

  • If you don't specify a predicate, it should mean that the collection is expected to contain exactly one item.

  • If you do specify a predicate, it should mean that exactly one item in the collection is expected to satisfy that condition. (Using a predicate should have the same effect as items.Where(predicate).Single().)

This is what makes Single different from other operators such as First, Last, or Take(1). None of those operators have the requirement that there should be exactly one (matching) item.

When should Single throw an exception?

Basically, when it finds that your assumption was wrong; i.e. when the underlying collection does not yield exactly one (matching) item. That is, when there are zero or more than one items.

When should Single be used?

The use of Single is appropriate when your program's logic can guarantee that the collection will yield exactly one item, and one item only. If an exception gets thrown, that should mean that your program's logic contains a bug.

If you process "unreliable" collections, such as I/O input, you should first validate the input before you pass it to Single. Single, together with an exception catch block, is not appropriate for making sure that the collection has only one matching item. By the time you invoke Single, you should already have made sure that there'll be only one matching item.


The above states my understanding of the Single LINQ operator. If you follow and agree with this understanding, you should come to the conclusion that Single ought to throw an exception as early as possible. There is no reason to wait until the end of the (possibly very large) collection, because the pre-condition of Single is violated as soon as it detects a second (matching) item in the collection.

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    But since the case where it throws an exception is the case where your program has a bug, performance in this case doesn't matter much. – CodesInChaos Jan 28 '11 at 9:09
  • I agree that it would be nice if the algorithm could throw as early as possible. Still, I fail to see how you can implement that and guarantee that your algorithm will be faster in all possible scenarios. – Peter Lillevold Jan 28 '11 at 9:12
  • @CodeInChaos: Imagine you have an infinite sequence: IEnumerable<int> xs() { while (true) { yield 1; } }. Now you call xs().Single(x => x > 0); You will wait forever. Wouldn't it be nicer to get an exception? (Note that the code shown doesn't make sense. Just take my code as a placeholder for some code that actually contains a logic bug. In reality, you wouldn't wait forever, but you might run into cases where you have to wait very long until you get an exception.) – stakx Jan 28 '11 at 9:13
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    @stakx I'm not opposed to that optimization. I'm just stating that it's irrelevant in practice. And in your infinite sequence Single won't terminate in the non exception case either. And that can't be optimized out. – CodesInChaos Jan 28 '11 at 9:22
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    @Artur: That's not how I meant it. Breaking off early certainly is possible: Indeed it cannot stop after finding only one match, but it certainly could when it finds the second match. For example, if you have a sequence of 100 items, and both the 1st and 6th items match, then you could stop after the 6th instead of iterating over the remaining 94 items. But I would now take CodeInChaos' and Peter Lillevold's stance that breaking early is an optimisation that benefits only the error case. – stakx Jan 28 '11 at 9:37

When considering this implementation we must remember that this is the BCL: general code that is supposed to work good enough in all sorts of scenarios.

First, take these scenarios:

  1. Iterate over 10 numbers, where the first and second elements are equal
  2. Iterate over 1.000.000 numbers, where the first and third elements are equal

The original algorithm will work well enough for 10 items, but 1M will have a severe waste of cycles. So in these cases where we know that there are two or more early in the sequences, the proposed optimization would have a nice effect.

Then, look at these scenarios:

  1. Iterate over 10 numbers, where the first and last elements are equal
  2. Iterate over 1.000.000 numbers, where the first and last elements are equal

In these scenarios the algorithm is still required to inspect every item in the lists. There is no shortcut. The original algorithm will perform good enough, it fulfills the contract. Changing the algorithm, introducing an if on each iteration will actually decrease performance. For 10 items it will be negligible, but 1M it will be a big hit.

IMO, the original implementation is the correct one, since it is good enough for most scenarios. Knowing the implementation of Single is good though, because it enables us to make smart decisions based on what we know about the sequences we use it on. If performance measurements in one particular scenario shows that Single is causing a bottleneck, well: then we can implement our own variant that works better in that particular scenario.

Update: as CodeInChaos and Eamon have correctly pointed out, the if test introduced in the optimization is indeed not performed on each item, only within the predicate match block. I have in my example completely overlooked the fact that the proposed changes will not affect the overall performance of the implementation.

I agree that introducing the optimization would probably benefit all scenarios. It is good to see though that eventually, the decision to implement the optimization is made on the basis of performance measurements.

  • I disagree: I believe that Single must not duplicate First or FirstOrDefault extension methods in BCL – Artur Mustafin Jan 28 '11 at 8:45
  • @Artur Mustafin - what? downvoted?? And where do I state that Single is or should be a duplicate of First ?? – Peter Lillevold Jan 28 '11 at 9:03
  • +1 Neat theory; that this would be more efficient in the normal case (i.e. the correct case). But that's not born out in my quick test: I tried Enumerable.Range(0,100000000).Single(x=>x==123) and Enumerable.Range(0,100000000).Where(x=>x==123).Single() and the latter is slightly faster. – Eamon Nerbonne Jan 28 '11 at 9:24
  • @Eamon: very interesting. Perhaps since the latter is not doing 100M increments... and again, only performance measurements in each particular case shows whether to optimize or not :) – Peter Lillevold Jan 28 '11 at 9:37
  • @Peter: the latter must do all the increments - after all, even the plain single implementation checks at least 2 elements, and to attempt to generate 2 elements Where will need to iterate over the entire sequence. (detail: since the queries take more than a second to run, I assume the optimizer isn't being supersmart and realizing that the single element must be 123 - and given the presence of delegates and interfaces, that would be a truly impressive feat of optimization anyhow.) – Eamon Nerbonne Jan 28 '11 at 9:49

I think it's a premature optimization "bug".

Why this is NOT reasonable behavior due to side effects

Some have argued that due to side effects, it should be expected that the entire list is evaluated. After all, in the correct case (the sequence indeed has just 1 element) it is completely enumerated, and for consistency with this normal case it's nicer to enumerate the entire sequence in all cases.

Although that's a reasonable argument, it flies in the face of the general practice throughout the LINQ libraries: they use lazy evaluation everywhere. It's not general practice to fully enumerate sequences except where absolutely necessary; indeed, several methods prefer using IList.Count when available over any iteration at all - even when that iteration may have side effects.

Further, .Single() without predicate does not exhibit this behavior: that terminates as soon as possible. If the argument were that .Single() should respect side-effects of enumeration, you'd expect all overloads to do so equivalently.

Why the case for speed doesn't hold

Peter Lillevold made the interesting observation that it may be faster to do...

foreach(var elem in elems)
    if(pred(elem)) {


foreach(var elem in elems)
    if(pred(elem)) {
        if(count>1) ...

After all, the second version, which would exit the iteration as soon as the first conflict is detected, would require an extra test in the loop - a test which in the "correct" is purely ballast. Neat theory, right?

Except, that's not bourne out by the numbers; for example on my machine (YMMV) Enumerable.Range(0,100000000).Where(x=>x==123).Single() is actually faster than Enumerable.Range(0,100000000).Single(x=>x==123)!

It's possibly a JITter quirk of this precise expression on this machine - I'm not claiming that Where followed by predicateless Single is always faster.

But whatever the case, the fail-fast solution is very unlikely to be significantly slower. After all, even in the normal case, we're dealing with a cheap branch: a branch that is never taken and thus easy on the branch predictor. And of course; the branch is further only ever encountered when pred holds - that's once per call in the normal case. That cost is simply negligible compared to the cost of the delegate call pred and its implementation, plus the cost of the interface methods .MoveNext() and .get_Current() and their implementations.

It's simply extremely unlikely that you'll notice the performance degradation caused by one predictable branch in comparison to all that other abstraction penalty - not to mention the fact that most sequences and predicates actually do something themselves.

  • I agree with what you wrote. That extra test will be hit only once in the non throwing case, and not on each loop iteration. And as you said its cost is vanishing compared to a delegate call. And the logic after the loop can be simplified if you already check that case inside the loop and the int counter replaced by a bool. So I don't think the additional check slows the success case down in any significant way, but provided large benefits in the failure case. So I'd use the early out. – CodesInChaos Jan 28 '11 at 9:55
  • @CodeInChaos: yep. Added a sentence pointing out it's only hit once. – Eamon Nerbonne Jan 28 '11 at 9:59
  • Nice answer. +1. – Amy Jan 28 '11 at 10:10
  • It's obvoius, that .Where() is faster than .Single(), since .Where() does no count its matches, and it has one comparison less and local variable less and one increment oiperation less than in a .Single(), so .Where() is actually faster than .Single(), because you can get .Where() has shorter inner-loop cycle – Artur Mustafin Jan 28 '11 at 10:44
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    @Artur Where(pred).Single() and Single(pred) are semantically equivalent, so Single(pred) should be at least as fast as Where(pred).Single(), and possibly even a bit faster. So once again you're not making any sense. – CodesInChaos Jan 28 '11 at 11:10

It seems very clear to me.

Single is intended for the case where the caller knows that the enumeration contains exactly one match, since in any other case an expensive exception is thrown.

For this use case, the overload that takes a predicate must iterate over the whole enumeration. It is slightly faster to do so without an additional condition on every loop.

In my view the current implementation is correct: it is optimized for the expected use case of an enumeration that contains exactly one matching element.

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    ...there isn't any extra condition on every iteration of the loop body - only those where the predicate matches: i.e. once. – Eamon Nerbonne Jan 28 '11 at 10:41
  • Actually, there is another readon, why Single implemented like I described: Silgle defsigned to return the single match of a sequence, otherwise the last one, if you will break the look as soon as possible, how would you know if that particular match is the really the last one (untill you go to the end)? – Artur Mustafin Jan 29 '11 at 1:16

That does appear to be a bad implementation, in my opinion.

Just to illustrate the potential severity of the problem:

var oneMillion = Enumerable.Range(1, 1000000)
                           .Select(x => { Console.WriteLine(x); return x; });

int firstEven = oneMillion.Single(x => x % 2 == 0);

The above will output all the integers from 1 to 1000000 before throwing an exception.

It's a head-scratcher for sure.

  • 3
    +0. While I fully agree with your answer, it basically just repeats what the OP already stated in his question (with the main difference being that you use a much larger collection of integers). – stakx Jan 28 '11 at 8:38
  • I disagree: It is Ok, since there are First or FirstOrDefault extension methods already existing in BCL – Artur Mustafin Jan 28 '11 at 8:46
  • @stakx: Ha, yes, good point. Just to give you a sense of where I was coming from: I sometimes interact with developers who, asked a question like this with the OP's example to illustrate, would say: "Yeah? So what? It iterates 5 items unnecessarily; big deal." Why the extrapolation is not something that immediately enters their minds, I can't say. But when I point out what the implications are when taken to the extreme, then they "get" it. This answer was aimed at developers like that ;) – Dan Tao Jan 28 '11 at 13:12
  • @Artur: I see that you are making this point in many places. I must admit I don't quite understand your logic. The OP was suggesting that Single should throw after the second match is found. First simply returns after the first match. This is the main specified behavioral difference between the two methods: one throws, one doesn't. Throwing upon the second found match would maintain this behavior difference but improve the performance of Single. – Dan Tao Jan 28 '11 at 13:24
  • Single designed to return the single match of a sequence, otherwise the last one, if you will break the look as soon as possible, how would you know if that particular match is the really the last one (until you go to the end)? – Artur Mustafin Jan 29 '11 at 1:22

I only found this question after filing a report at https://connect.microsoft.com/VisualStudio/feedback/details/810457/public-static-tsource-single-tsource-this-ienumerable-tsource-source-func-tsource-bool-predicate-doesnt-throw-immediately-on-second-matching-result#

The side-effect argument doesn't hold water, because:

  1. Having side-effects isn't really functional, and they're called Func for a reason.
  2. If you do want side-effects, it makes no more sense to claim the version that has the side-effects throughout the whole sequence is desirable than it does to claim so for the version that throws immediately.
  3. It does not match the behaviour of First or the other overload of Single.
  4. It does not match at least some other implementations of Single, e.g. Linq2SQL uses TOP 2 to ensure that only the two matching cases needed to test for more than one match are returned.
  5. We can construct cases where we should expect a program to halt, but it does not halt.
  6. We can construct cases where OverflowException is thrown, which is not documented behaviour, and hence clearly a bug.

Most importantly of all, if we're in a condition where we expected the sequence to have only one matching element, and yet we're not, then something has clearly gone wrong. Apart from the general principle that the only thing you should do upon detecting an error state is clean-up (and this implementation delays that) before throwing, the case of an sequence having more than one matching element is going to overlap with the case of a sequence having more elements in total than expected - perhaps because the sequence has a bug that is causing it to loop unexpectedly. So it's precisely in one possible set of bugs that should trigger the exception, that the exception is most delayed.


Peter Lillevold's mention of a repeated test may be a reason why the author chose to take the approach they did, as an optimisation for the non-exceptional case. If so it was needless though, even aside from Eamon Nerbonne showing it wouldn't improve much. There's no need to have a repeated test in the initial loop, as we can just change what we're testing for upon the first match:

public static TSource Single<TSource>(this IEnumerable<TSource> source, Func<TSource, bool> predicate)
  if(source == null)
    throw new ArgumentNullException("source");
  if(predicate == null)
    throw new ArgumentNullException("predicate");
  using(IEnumerator<TSource> en = source.GetEnumerator())
      TSource cur = en.Current;
            throw new InvalidOperationException("Sequence contains more than one matching element");
       return cur;
  throw new InvalidOperationException("Sequence contains no matching element");

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