Just wondering if there is anyway to represent the following code in C# 3.5:

public struct Foo<T> {

    public Foo(T item) {
        this.Item = item;

    public T Item { get; set; }

    public static explicit operator Foo<U> ( Foo<T> a )
        where U : T {

        return new Foo<U>((U)a.Item)



Conversion operators can't be generic. From the spec section 10.10, here's the format of a conversion-operator-declarator:

    implicit   operator   type   (   type   identifier   )
    explicit   operator   type   (   type   identifier   )

Compare this with, say, a method-header:

method-header: attributesopt method-modifiersopt partialopt return-type member-name type-parameter-listopt ( formal-parameter-listopt ) type-parameter-constraints-clausesopt

(Sorry about the formatting - not sure how to do it better.)

Note that the operator format doesn't include a type parameter list or type parameter constraints.

  • 2
    And even if we did support user-defined generic conversions, this one would still be illegal. It is illegal to define a conversion that replaces a built-in conversion. This would do so if T and U were the same type; you would be replacing the identity conversion. – Eric Lippert Jun 22 '09 at 14:53
  • 1
    As casts are decided by the compiler, if T and U were the same type, then it wouldn't use the user defined cast, and be leagal. – Miguel Angelo Mar 16 '10 at 17:51

Your code boils down to the line: return new Foo<U>((U)a.Item)

Where you try to assign a baseclass to an inherited class, which is impossible.

Let's say T (base-class) is of type Stream and U is of type MemoryStream (inherited class), you cannot assign a Stream to a variable of type MemoryStream.

  • Sure you can, If the reference masks the object as a Stream, but it is infact a MemoryStream, then you can certainly cast it to a Memory Stream. This is a legitimate method, the problem is that you can't actually specify generic constraints on an operator overload... – LaserJesus Jun 22 '09 at 5:54
  • ...If you take the code I have and express it as a method rather than an operator overload it will compile – LaserJesus Jun 22 '09 at 5:56

I think the short answer is "Not possible. Try using a method instead"

Also seems to be dupe of this question Solution for overloaded operator constraint in .NET generics


It looks like you want a contravariant conversion, but structs are immutable, the conversion buys you nothing, you can simply say new Foo<U>((U)a.Item) as @Gidon has pointed out.

If you considered to change Foo to be a class, then we can make some difference:

public interface IFoo<in T> {
    T Item {

public class Foo<T>:IFoo<T> {
    public Foo(T item) {

    public T Item {
        get; set;

    // public static explicit operator Foo<U>(U a) {
    //  return new Foo<U>((U)a.Item);
    // }

and use it like:

var foo = new Foo<object>(new object { });
IFoo<String> bar = foo;
var b = Object.ReferenceEquals(foo, bar); // true

By the way, variance in generic interfaces is only available from .netfx 4.0.

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