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Is there a way to get the following function declaration?

public bool Foo<T>() where T : interface;

ie. where T is an interface type (similar to where T : class, and struct).

Currently I've settled for:

public bool Foo<T>() where T : IBase;

Where IBase is defined as an empty interface that is inherited by all my custom interfaces... Not ideal, but it should work... Why can't you define that a generic type must be an interface?

For what it's worth, I want this because Foo is doing reflection where it needs an interface type... I could pass it in as a normal parameter and do the necessary checking in the function itself, but this seemed alot more typesafe (and I suppose a little more performant, since all the checks are done at compiletime).

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8 Answers 8

up vote 56 down vote accepted

The closest you can do (except for your base-interface approach) is "where T : class", meaning reference-type. There is no syntax to mean "any interface".

This ("where T : class") is used, for example, in WCF to limit clients to service contracts (interfaces).

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nice answer, but do you have any idea why this syntax doesn't exist? Seems like it would be a nice-to-have feature. –  Stephen Holt Sep 6 '13 at 9:36
@StephenHolt: I think think the creators of .NET, in deciding what constraints to allow, were focused on ones that would let generic classes and methods do things with generic types that they otherwise could not, rather than on preventing them from being used in nonsensical ways. That having been said, an interface constraint on T should allow reference comparisons between T and any other reference type, since reference comparisons are allowed between any interface and almost any other reference type, and allowing comparisons even that case would pose no problem. –  supercat Jan 6 at 23:50

I know this is a bit late but for those that are interested you can use a runtime check.

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+1 for being the only answer to point this out. I just added an answer with an approach to improve the performance by checking each type only once rather than every time the method is called. –  phoog Feb 6 '12 at 17:50
The whole idea of generics in C# is to have compile-time safety. What you're suggesting can just as well be performed with a non-generic method Foo(Type type). –  Jacek Gorgoń Mar 2 at 20:12

No, actually, if you are thinking class and struct mean classes and structs, you're wrong. class means any reference type (e.g. includes interfaces too) and struct means any value type (e.g. struct, enum).

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Isn't that the definition of the difference between a class and a struct though: that every class is a reference type (and vice versa) and ditto for stuct/value types –  Matthew Scharley Jul 8 '09 at 7:22
Matthew: There are more to value types than C# structs. Enums, for instance are value types and match where T : struct constraint. –  Mehrdad Afshari Jul 8 '09 at 7:23
It's worth noting that an interface types used in constraints do not imply class, but declaring a storage location of an interface type really declares the storage location to be a class reference which implement that type. –  supercat May 17 '12 at 16:15
To be even more precise, where T : struct corresponds to NotNullableValueTypeConstraint, so it means it must be a value type other than Nullable<>. (So Nullable<> is a struct type which doesn't satisfy the where T : struct constraint.) –  Jeppe Stig Nielsen Aug 19 '13 at 10:21

To follow up on Robert's answer, this is even later, but you can use a static helper class to make the runtime check once only per type:

public bool Foo<T>() where T : class

private static class FooHelper<TInterface> where TInterface : class
    static FooHelper()
        if (!typeof(TInterface).IsInterface)
            throw // ... some exception
    public static void Foo() { /*...*/ }
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A static constructor can't be public, so this should give a compile-time error. Also your static class contains an instance method, that's a compile-time error as well. –  Jeppe Stig Nielsen Aug 19 '13 at 10:16

You cannot do this in any released version of C#, nor in the upcoming C# 4.0. It's not a C# limitation, either - there's no "interface" constraint in the CLR itself.

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What you have settled for is the best you can do:

public bool Foo<T>() where T : IBase;
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I tried to do something similar and used a workaround solution: I thought about implicit and explicit operator on structure: The idea is to wrap the Type in a structure that can be converted into Type implicitly.

Here is such a structure:

public struct InterfaceType { private Type _type;

public InterfaceType(Type type)
    _type = type;

public static explicit operator Type(InterfaceType value)
    return value._type;

public static implicit operator InterfaceType(Type type)
    return new InterfaceType(type);

private static void CheckType(Type type)
    if (type == null) throw new NullReferenceException("The type cannot be null");
    if (!type.IsInterface) throw new NotSupportedException(string.Format("The given type {0} is not an interface, thus is not supported", type.Name));


basic usage:

// OK
InterfaceType type1 = typeof(System.ComponentModel.INotifyPropertyChanged);

// Throws an exception
InterfaceType type2 = typeof(WeakReference);

You have to imagine your own mecanism around this, but an example could be a method taken a InterfaceType in parameter instead of a type

this.MyMethod(typeof(IMyType)) // works
this.MyMethod(typeof(MyType)) // throws exception

A method to override that should returns interface types:

public virtual IEnumerable<InterfaceType> GetInterfaces()

There are maybe things to do with generics also, but I didn't tried

Hope this can help or gives ideas :-)

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Use an abstract class instead. So, you would have something like:

public bool Foo<T>() where T : CBase;
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You can't always replace an interface with an abstract class since C# doesn't support multiple inheritance. –  Sam Sep 24 '13 at 0:36

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