Coming back to C# after a few years so I'm a little rusty. Came across this (simplified) code and it's leaving my head scratching.

Why do you have to explicitly implement the IDataItem.Children property? Doesn't the normal Children property satisfy the requirement? After all, the property is used directly to satisfy it. Why is it not implicit?

public interface IDataItem {

    IEnumerable<string> Children { get; }

public class DataItem : IDataItem {

    public Collection<string> Children { get; } = new Collection<string>();

    // Why doesn't 'Children' above implement this automatically?!
    // After all it's used directly to satisfy the requirement!
    IEnumerable<string> IDataItem.Children => Children;

According to the C# source, here's the definition of Collection<T>:

public class Collection<T> :
    System.Collections.Generic.IEnumerable<T>, <-- Right Here

As you can see, it explicitly implements IEnumerable<T> and from my understanding, if 'X' implements 'Y' then 'X' is a 'Y', so Collection<String> is an IEnumerable<String> so I'm not sure why it isn't satisfied.

  • It's not used "directly", there's an implicit conversion (upcast) which the compiler will turn into a non-zero amount of code.
    – Ben Voigt
    Jul 30, 2018 at 5:17
  • Doesn't the normal Children property satisfy the requirement? - No. Based on my understanding, the implementation must exactly match the interface signature including the return type. Jul 30, 2018 at 5:24
  • 1
    C# does no support return type covariance. Jul 30, 2018 at 5:25
  • You don't have to use IDataItem.Children explicitly, public IEnumerable<string> Children => new Collection<string>(); is good enough.
    – Guy
    Jul 30, 2018 at 6:20
  • 1
    @Guy: But then he has no way to use the Collection object as a Collection from inside the class :(
    – Ben Voigt
    Jul 30, 2018 at 6:26

4 Answers 4


Perhaps this example makes it clearer. We want signatures to match exactly1,2, no substitutions allowed, despite any inheritance relationships between the types.

We're not allowed to write this:

public interface IDataItem {

    void DoStuff(string value);

public class DataItem : IDataItem {

    public void DoStuff(object value) { }

Your example is the same, except your asking for return types rather than parameters (and employing a narrowing rather than widening conversion, for obvious reasons). Nontheless, the same principal applies. When it comes to matching signatures, the types must match exactly3.

You can ask for a language that would allow such things to happen and such languages may exist. But the fact of the matter is, these are the rules of C#.

1Outside of some limited support for Co- and Contra-variance involving generics and interfaces/delgates.

2Some may argue about whether signature is the right word to use here since in this case, return types matter as much as parameter types, generic arity, etc; In most other situations where someone talks about C# method signatures, they'll be explicitly ignoring the return type because they're (explicitly or implicitly) considering what the overloading rules say, and for overloading, return types are not part of the signature.

Nonetheless, I'm happy with my usage of the word "signature" here. Signatures aren't formally defined in the C# specification and where it's used, it's often to point out which parts of the signature aren't to be considered for overloading.

3Not to mention the issues that would be raised if your Children method was returning a struct that happened to implement IEnumerable<string>. Now you've got a method that returns the value of a value type and a caller (via the IDataItem interface who is expecting to receive a reference to an object.

So it's not even that the method could be used as-is. We'd have to (in this case) have hidden boxing conversions to implement the interface. When this part of C# was specced, they were, I believe, trying not to have too much "hidden magic" for code you could easily write yourself.

  • 1
    Who is "We"? I understand you are saying "That is the way it is" and you are right. I think the OP is really asking "why aren't contra-variant return types on interface implementations allowed?" The answer, "they just aren't" misses the point although it is factually correct. Myself, I can only speculate on why the language wasn't created this way.
    – Jodrell
    Jul 30, 2018 at 12:19
  • @Jodrell - that's the general problem with a lot of Why questions. The best I can do is to point out that this isn't some accidental emergent property but something that really is baked into the language. Jul 30, 2018 at 12:21
  • It's not quite the same. My question is about the class satisfying a getter in the interface from within. Collection<string> is an IEnumerable<string> therefore everywhere that takes the interface and expects an IEnumerable<string> can always be satisfied with Collection<string>. Your example isn't a getter, but a setter (technically a method with a parameter), meaning it's handed an 'object' externally, and there's no guarantee what it's handed is a string so it can't satisfy the interface. I agree what you posted shouldn't work for that reason, but again, it's not the same. Jan 5, 2021 at 6:44
  • @MarkA.Donohoe - I'd hoped I'd already made clear in the paragraph below the code sample and in footnote 3 that the exact same arguments apply to return types as to parameter types. Jan 5, 2021 at 8:02
  • But it's not a logic limitation. It's a compiler one. Swift for instance handles this just fine. You can even use a getter/setter property to satisfy a getter-only interface (i.e. a protocol in Swift parlance.) This is because on one hand you're the one giving something to someone else whereas on the other, someone else is giving something to you based on some condition. You have complete control over the former, but not the latter. The former is 100% predictable and 'known' and if it's known to satisfy it, the compiler really should allow it. I get that it doesn't. It's just frustrating. Jan 5, 2021 at 8:09

In your example your "normal" Children property do not actually satisfy the interface requirement. The type is different. It does not really matter that you can cast it - they are different.

Similar example and maybe a bit more obvious is if you would implement an interface with a actual method that returns IEnumerable and tried an ICollection method from the actual class. There is still that compile time error.

As @Ben Voigt said the conversion still generates some code, and if you want to have it - you need to add it implicitly.

  • But doesn't Collection<String> directly implement IEnumerable<String>, therefore it should satisfy the requirement? Of course the answer is 'No, it doesn't!' but can you give an example of where this would not be a good thing to do implicitly? What's the down-side? Jul 30, 2018 at 5:26
  • And one can make the argument 'If 'X' implements 'Y' then for all intents and purposes, 'X' is a 'Y'!' ergo I still feel this should be implicitly picked up. Jul 30, 2018 at 5:31
  • @MarqueIV: Well, it would be possible for the compiler to automatically generate both versions, one returning IEnumerable to satisfy the interface, and one returning Collection to match your declared signature. C++ does this, that's why we say it supports return-type covariance. .NET chooses not to, maybe because the extra trickery would become visible through reflection and royally confuse people trying to use dynamic binding (which C++ doesn't have to worry about).
    – Ben Voigt
    Jul 30, 2018 at 6:29
  • But, and correct me if I'm wrong, the return type is an IEnumerable<string> because Collection<string> implements it directly. It's not implicit. I thought covariance was something different. Jul 30, 2018 at 6:40
  • 1
    The compiler could do this but it doesn't, the question is why. Without an authoritative source we can only speculate. We need someone from the design team, who kept a good diary, to chip in and answer. The answer is probably either, "we thought it would make things too hard to understand" or "it was difficult and we didn't think it was worth the effort" or some combination of the two.
    – Jodrell
    Jul 30, 2018 at 12:31

The question has been answered here (you have to match the interface types) and we can demonstrate the problem with an example. If this worked:

public interface IDataItem {

    IEnumerable<string> Children { get; set; }

    void Wipe();

public class DataItem : IDataItem {

    public Collection<string> Children { get; } = new Collection<string>(); 

    public void Wipe() {
        Children.ClearItems();  //Property exists on Collection, but not on IEnumerable

And we then use this code like this:

IDataItem x = new DataItem();

//Should be legal, as Queue implements IEnumerable. Note entirely sure
//how this would work, but this is the system you are asking about.
x.Children = new Queue<string>();

x.Wipe();  // Will fail, as Queue does not have a ClearItems method within

Either you mean the property to only ever be enumerable, or you need the properties of the Collection class - type your interface appropriately.

  • 2
    x.Children = new Queue<string>(); would need Children to have a setter.
    – Chris
    Jul 30, 2018 at 9:23
  • Exactly. And if you implemented a setter, you couldn't use Collection as the backing store as there's no guarantee, as you pointed out, that the type would have a ClearItems property. But in this case, there is no setter, thus the type can only be Collection, therefore it should implement it implicitly IMHO. Jul 30, 2018 at 15:13
  • There would be, I imagine, quite a bit of work within the compiler to allow this to work properly 100% of the time. If still think that if you want your object to expose something other than the interface properties, then you are possibly using it wrong.
    – Paddy
    Jul 30, 2018 at 15:49
  • Can't say I agree with that last statement. Just because something implements an interface doesn't mean that's the only thing it is. Conversely just because something can fulfill an interface doesn't mean the interface owns it. Children is a property of the class, first. The fact it also is used for that interface is just a happy coincidence because even if you remove that interface requirement, Children is still applicable. (Remember, this is simplified code to illustrate the question.) Jul 30, 2018 at 18:44

Any class that implements the interface must contain the definition for method that matches the signature that the interface specifies. The interface defines only the signature. In that way, an interface in C# is similar to an abstract class in which all the methods are abstract.

Interfaces can contain methods, properties, events, indexers, or any combination of those four member types.

Here is the good read about interfaces. Interfaces in C#

Hope it will help you in further understanding.

  • 3
    The question wasn't what an interface is. It was that Collection<String> already implements IEnumerable<String> (or so I thought) which AFAIT, meant it would be implicitly picked up by IDataItem, but it wasn't. Make sense? Jul 30, 2018 at 6:01

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