Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them, it only takes a minute:

Assume I have interface and class:

public interface ITree {}
public class Tree : ITree {}

As IEnumerable<T> is covariant, the code line below is compiled successfully:

IEnumerable<ITree> trees = new List<Tree>();

But when I put it into generic method:

public void Do<T>() where T : ITree
     IEnumerable<ITree> trees = new List<T>();

I get compiled error from compiler:

Error 1 Cannot implicitly convert type 'System.Collections.Generic.List' to 'System.Collections.Generic.IEnumerable'. An explicit conversion exists (are you missing a cast?) D:\lab\Lab.General\Lab.General\Program.cs 83 40 Lab.General

Why covariance does not work in this case?

share|improve this question
possible duplicate of Is this a covariance bug in C# 4? –  nawfal Jul 7 '14 at 7:01

1 Answer 1

up vote 18 down vote accepted

That is because variance only works with reference types (classes, interfaces & delegates). Add a class constraint and it compiles just fine:

public static void Do<T>() where T : class, ITree
share|improve this answer
Thank, I mislead that when doing constraint T : ITree it is implicit that T is reference type, but it actually is not –  Cuong Le Oct 5 '12 at 11:19
If ITree is an interface type, a storage location of type ITree will always hold either null or a reference to a heap object that implements ITree, but a storage location of a generic type constrained to ITree may hold a reference or it may hold an actual instance of a value type which implements ITree. Personally, I dislike the way that structs which implement interfaces are implicitly converted to heap references which implement those interfaces without the structs having any say in the matter. Value-type semantics differ from rerefence semantics in USEFUL ways, but... –  supercat Oct 19 '12 at 22:53
...the "unified type system" model assumes (wrongly) that they will behave identically. A variable of type List<string>.Enumerator implements IEnumerable<string>, but holds something whose behavior is very different from that of a variable of type IEnumerable<string> which holds a reference to a List<string>.Enumerator. –  supercat Oct 19 '12 at 23:00
@supercat I guess you mean IEnumerator<string>, not IEnumerable. It is true that value types get boxed when you store them in a variable of interface type. The good thing about generics is that we don't get boxing there. So if you say Do<MyStruct>() where MyStruct is a struct implementing the interface, then you get a specific "version" of the method for MyStruct. So if inside the method it says T localT = default(T); then the code produces a value of MyStruct and makes no boxing which is cool. But with ITree localT = default(T); of course you get a boxed value. –  Jeppe Stig Nielsen Nov 25 '12 at 13:55
@JeppeStigNielsen: You are correct. The problem is that a struct which implements a mutating interface will have struct semantics, but if cast to that interface it will become (and behave as) a reference type with a broken Equals method. While it's useful to have a concept of interfaces that can be implemented by value types, I'm not sure it's useful to say that a boxed structure implicitly implements the interfaces of the original; it might be more useful to allow structures to define casts to interfaces (where the cast would yield a new object which does implement the interface). –  supercat Nov 25 '12 at 17:20

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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