I have the following function to get validation errors for a card. My question relates to dealing with GetErrors. Both methods have the same return type IEnumerable<ErrorInfo>.

private static IEnumerable<ErrorInfo> GetErrors(Card card)
    var errors = GetMoreErrors(card);
    foreach (var e in errors)
        yield return e;
    // further yield returns for more validation errors

Is it possible to return all the errors in GetMoreErrors without having to enumerate through them?

  • 4
    whats wrong with return GetMoreErrors(card); ? Aug 13, 2009 at 4:54
  • 11
    @Sam: "further yield returns for more validation errors"
    – Jon Skeet
    Aug 13, 2009 at 5:30
  • 1
    From the standpoint of a non-ambiguous language, one issue is that the method can't know if there is anything that implements both T and IEnumerable<T>. So you need a different construct in the yield. That said, it sure would be nice to have a way to do this. Yield return yield foo, perhaps, where foo implements IEnumerable<T>? Jan 1, 2016 at 9:38
  • 2
    For those interested, the C# language feature request for this is located here: github.com/dotnet/csharplang/issues/378, I believe. Sep 1, 2020 at 16:16
  • For reference issue 378, was actually original a more complex edge case of this with performance considerations (something about recursive calls? idk.). Off the back of that conversation I've raised a dedicated discussion solely for pitching the change as a purely syntactic sugar: github.com/dotnet/csharplang/discussions/5303
    – Brondahl
    Oct 19, 2021 at 18:00

6 Answers 6


It is something that F# supports with yield! for a whole collection vs yield for a single item. (That can be very useful in terms of tail recursion...)

Unfortunately it's not supported in C#.

However, if you have several methods each returning an IEnumerable<ErrorInfo>, you can use Enumerable.Concat to make your code simpler:

private static IEnumerable<ErrorInfo> GetErrors(Card card)
    return GetMoreErrors(card).Concat(GetOtherErrors())

There's one very important difference between the two implementations though: this one will call all of the methods immediately, even though it will only use the returned iterators one at a time. Your existing code will wait until it's looped through everything in GetMoreErrors() before it even asks about the next errors.

Usually this isn't important, but it's worth understanding what's going to happen when.

  • 3
    Wes Dyer has an interesting article mentioning this pattern. blogs.msdn.com/wesdyer/archive/2007/03/23/…
    – JohannesH
    Aug 26, 2009 at 4:06
  • 1
    Minor correction for passers by - it's System.Linq.Enumeration.Concat<>(first,second). Not IEnumeration.Concat().
    – redcalx
    Apr 18, 2010 at 23:01
  • 1
    @Jon Skeet - What exactly do you mean that it will call the methods immediately? I ran a test and it looks like it's deferring the method calls completely until something is actually iterated. Code here: pastebin.com/0kj5QtfD Aug 9, 2010 at 23:20
  • 7
    @Steven: Nope. It's calling the methods - but in your case GetOtherErrors() (etc) are deferring their results (as they're implemented using iterator blocks). Try changing them to return a new array or something like that, and you'll see what I mean.
    – Jon Skeet
    Aug 10, 2010 at 5:22
  • 1
    @Jon OK, I get it. I guess I overlooked the fact that an array implements IEnumerable as well, and that calling a method and getting the results of a method are two different things (I'm new to the idea of iterator blocks). Thanks for clarifying. Aug 10, 2010 at 12:07

You could set up all the error sources like this (method names borrowed from Jon Skeet's answer).

private static IEnumerable<IEnumerable<ErrorInfo>> GetErrorSources(Card card)
    yield return GetMoreErrors(card);
    yield return GetOtherErrors();
    yield return GetValidationErrors();
    yield return AnyMoreErrors();
    yield return ICantBelieveHowManyErrorsYouHave();

You can then iterate over them at the same time.

private static IEnumerable<ErrorInfo> GetErrors(Card card)
    foreach (var errorSource in GetErrorSources(card))
        foreach (var error in errorSource)
            yield return error;

Alternatively you could flatten the error sources with SelectMany.

private static IEnumerable<ErrorInfo> GetErrors(Card card)
    return GetErrorSources(card).SelectMany(e => e);

The execution of the methods in GetErrorSources will be delayed too.


I came up with a quick yield_ snippet:

yield_ snipped usage animation

Here's the snippet XML:

<?xml version="1.0" encoding="utf-8"?>
<CodeSnippets xmlns="http://schemas.microsoft.com/VisualStudio/2005/CodeSnippet">
  <CodeSnippet Format="1.0.0">
      <Author>John Gietzen</Author>
      <Description>yield! expansion for C#</Description>
      <Title>Yield All</Title>
        <Literal Editable="true">
        <Literal Editable="true">
      <Code Language="CSharp"><![CDATA[foreach (var $i$ in $items$) yield return $i$$end$;]]></Code>
  • 3
    How is this an answer to the question?
    – Ian Kemp
    Apr 3, 2019 at 11:31
  • 3
    @Ian, this is how you have to do nested yield return in C#. There is no yield!, like in F#. Apr 3, 2019 at 21:04
  • this is not an answer to the question Jan 10, 2020 at 12:16
  • 2
    I certainly find using the snippet more useful than debating whether the snippet is useful. Jun 2, 2022 at 9:10

I'm surprised no one has thought to recommend a simple Extension method on IEnumerable<IEnumerable<T>> to make this code keep its deferred execution. I'm a fan of deferred execution for many reasons, one of them is that the memory footprint is small even for huge-mongous enumerables.

public static class EnumearbleExtensions
    public static IEnumerable<T> UnWrap<T>(this IEnumerable<IEnumerable<T>> list)
        foreach(var innerList in list)
            foreach(T item in innerList)
                yield return item;

And you could use it in your case like this

private static IEnumerable<ErrorInfo> GetErrors(Card card)
    return DoGetErrors(card).UnWrap();

private static IEnumerable<IEnumerable<ErrorInfo>> DoGetErrors(Card card)
    yield return GetMoreErrors(card);

    // further yield returns for more validation errors

Similarly, you can do away with the wrapper function around DoGetErrors and just move UnWrap to the callsite.

  • 6
    Probably nobody thought about an Extension method because DoGetErrors(card).SelectMany(x => x) does the same and preserves the deferred behavior. Which is exactly what Adam suggests in his answer. Oct 25, 2016 at 9:18

I don't see anything wrong with your function, I'd say that it is doing what you want.

Think of the Yield as returning an element in the final Enumeration each time that it is invoked, so when you have it in the foreach loop like that, each time it is invoked it returns 1 element. You have the ability to put conditional statements in your foreach to filter the resultset. (simply by not yielding on your exclusion criteria)

If you add subsequent yields later in the method, it will continue to add 1 element to the enumeration, making it possible to do things like...

public IEnumerable<string> ConcatLists(params IEnumerable<string>[] lists)
  foreach (IEnumerable<string> list in lists)
    foreach (string s in list)
      yield return s;

Yes it is possible to return all errors at once. Just return a List<T> or ReadOnlyCollection<T>.

By returning an IEnumerable<T> you're returning a sequence of something. On the surface that may seem identical to returning the collection, but there are a number of difference, you should keep in mind.


  • The caller can be sure that both the collection and all the items will exist when the collection is returned. If the collection must be created per call, returning a collection is a really bad idea.
  • Most collections can be modified when returned.
  • The collection is of finite size.


  • Can be enumerated - and that is pretty much all we can say for sure.
  • A returned sequence itself cannot be modified.
  • Each element may be created as part of running through the sequence (i.e. returning IEnumerable<T> allows for lazy evaluation, returning List<T> does not).
  • A sequence may be infinite and thus leave it to the caller to decide how many elements should be returned.
  • Returning a collection can result in unreasonable overhead if all the client really needs is to enumerate through it, since you allocate the data structures for all elements in advance. Also, if you delegate to another method that's returning a sequence, then capturing it as a collection involves extra copying, and you do not know how many items (and thus how much overhead) this may potentially involve. Thus, it is only a good idea to return collection when it is already there and can be returned directly without copying (or wrapped as readonly). In all other cases, sequence is a better choice Aug 13, 2009 at 5:58
  • I agree, and if you got the impression that I said returning a collection is always a good idea you missed my point. I was trying to highlight the fact that there are differences between returning a collection and returning a sequence. I will try to make it clearer. Aug 13, 2009 at 6:06

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.