If I implement an interface for a value type and try to cast it to a List of it's interface type, why does this result in an error whereas the reference type converts just fine?

This is the error:

Cannot convert instance argument type System.Collections.Generic.List<MyValueType> to System.Collections.Generic.IEnumerable<MyInterfaceType>

I have to explicitely use the Cast<T> method to convert it, why? Since IEnumerable is a readonly enumeration through a collection, it doesn't make any sense to me that it cannot be cast directly.

Here's example code to demonstrate the issue:

    public interface I{}

    public class T : I{}

    public struct V: I{}

    public void test()
        var listT = new List<T>();
        var listV = new List<V>();

        var listIT = listT.ToList<I>();     //OK
        var listIV = listV.ToList<I>();     //FAILS to compile, why?

        var listIV2 = listV.Cast<I>().ToList(); //OK

  • 8
    Variance doesn't work for structs. Variance works for reference types because their representations (references/pointers) retain their bit patterns. Feb 13, 2015 at 18:02
  • @TheodorosChatzigiannakis should be contravariance, not variance: en.wikipedia.org/wiki/…
    – Fals
    Feb 13, 2015 at 18:05
  • 6
    @Fals: Neither kind of variance works for value types.
    – SLaks
    Feb 13, 2015 at 18:06
  • 1
    You can read this: blogs.msdn.com/b/csharpfaq/archive/2010/02/16/… Feb 13, 2015 at 18:16
  • What exactly do you think a ToList<I> for a Struct should be anyways? What exactly would the list contain? Certainly not the original value types, and the interface isn't the struct so it has to be a reference type... so you are, in effect forcing a boxing from a value type to a reference type by doing this. Apart from the variance issues mentioned, this alone should throw up a lot of red flags in your mind about the issue that it can't be as simple as you think. Feb 13, 2015 at 19:35

1 Answer 1


Variance (covariance or contravariance) doesn't work for value types, only reference types:

Variance applies only to reference types; if you specify a value type for a variant type parameter, that type parameter is invariant for the resulting constructed type. (MSDN)

The values contained inside reference type variables are references (for example, addresses) and data addresses have the same size and are interpreted the same way, without any required change in their bit patterns.

In contrast, the values contained inside value type variables do not have the same size or the same semantics. Using them as reference types requires boxing and boxing requires type-specific instructions to be emitted by the compiler. It's not practical or efficient (sometimes maybe not even possible) for the compiler to emit boxing instructions for any possible kind of value type, therefore variance is disallowed altogether.

Basically, variance is practical thanks to the extra layer of indirection (the reference) from the variable to the actual data. Because value types lack that layer of indirection, they lack variance capabilities.

Combine the above with how LINQ operations work:

A Cast operation upcasts/boxes all elements (by accessing them through the non-generic IEnumerable, as you pointed out) and then verifies that all elements in a sequence can be successfully cast/unboxed to the provided type and then does exactly that. The ToList operation enumerates the sequence and returns a list from that enumeration.

Each one has its own job. If (say) ToList did the job of both, it would have the performance overhead of both, which is undesirable for most other cases.

  • 3
    Upvoted. Extra information: The ToList<TSource> extension is defined "on" IEnumerable<TSource> and it is IEnumerable<out T> which is covariant here. The asker could do IEnumerable<I> listAsI = listT; directly as well because of the same covariance, but that will not perform the (shallow) copy. Feb 13, 2015 at 20:24
  • @JeppeStigNielsen It works! But now I'm lost: why does it work when I assign it to IEnumerable<I> beforehand? If the covariance is working for assigning to IEnumerable<I>, why isn't it implicitely working for .ToList<I>() as well?
    – Marwie
    Feb 13, 2015 at 21:37
  • And additionaly I wonder why this actually works, considering what Theodoros Chatzigiannakis mentionend in his response (no variance for value types) I would have thought this is exactly not working in this case.
    – Marwie
    Feb 13, 2015 at 21:42
  • 1
    Instead of .Cast<I>() you can also use .Select(x => (I)x) where you write the boxing conversion as (I)x. The latter method is an extension of the generic IEnumerable<V> interface. I am not sure which of these two will be faster. Feb 14, 2015 at 10:25
  • 1
    @JeppeStigNielsen It's not only a matter of speed: Select(x => (T)x) can handle some casts that Cast<T> won't handle. This is due to boxing in the latter, and the fact that a boxed struct can only be unboxed to itself, so any conversion casts will fail in Cast but will succeed in Select. Feb 14, 2015 at 10:28

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