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private static Matcher<T> EqualTo<T>(T item)
    return new IsEqual<T>(item);

How do I modify the above method definition such that the following are valid/allowed.

EqualTo(null); // doesn't compile. EqualTo<string>(null) does

Trying to port some Java code where null seems to be acceptable value for a T parameter.

Thanks: for all the answers - especially Eamon and Jason. I didn't want the method calls to bother with type-inference. The following overload fixed it.

    private static Matcher<object> EqualTo(object item)
        return EqualTo<object>(item);

Actually the above question was a part of a larger puzzle. The end goal was for the following to work.

        this.AssertThat(null, EqualTo(null));
        this.AssertThat(null, Not(EqualTo("hi")));
        this.AssertThat("hi", Not(EqualTo(null)));

Applied the same fix.. RFC. (Ignore the ugly extension method part - that's another problem. Wanted to have these methods in all test-fixtures without inheritance.)

public static void AssertThat<T>(this object testFixture, object actual, Matcher<T> matcher, string message = "")
  AssertThat(anyObject, (T)actual, matcher, message);

public static void AssertThat<T, TSuper>(this object testFixture, T actual, Matcher<TSuper> matcher, string message = "") where T : TSuper
  ... check and assert
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How would you expect it to infer the type T from an explicit null value? You can certainly use it on a null value in a string variable, but I don't know of any way to infer a type from an explicit null without specifying it manually. –  tvanfosson Apr 10 '11 at 14:46
Well, you might expect it to infer object. –  Eamon Nerbonne Apr 10 '11 at 14:57
And what's wrong with EqualTo<string>(null) ? I'm trying to see the practical problem. –  Henk Holterman Apr 10 '11 at 14:59
@Eamon - at the very least that seems like a way to allow people to create bugs. I don't know enough about the signature of Matcher<T> but I can think of several things this would break in a fluent style interface by changing the type of the result without warning. –  tvanfosson Apr 10 '11 at 15:04
@tvanfosson - actually that is exactly what I'd like in my specific scenario - See update. @Eamon - thanks for sending me on my way. I kinda figured it out while the other answers were being posted. :) –  Gishu Apr 10 '11 at 15:46

5 Answers 5

up vote 8 down vote accepted

Consider the following method:

public bool IsNullString<T>(T item) {
    return typeof(T) == typeof(string) && item == null;

Yes, this is a pathetically stupid method and using generics is pointless here, but you'll see the point in a moment.

Now consider

bool first = IsNullString<string>(null);
bool second = IsNullString<Foo>(null);

bool third = IsNullString(null);

In the first and second, the compiler can clearly distinguish the type of T (no inference is needed). In the third, how the compiler infer what T is? In particular, it can't distinguish between T == string and T == Foo, or any other type for that matter. Therefore, the compiler has to give you a compile-time error.

If you want to get around this, you either need to cast null


or explicitly state the type


or define an overload

private static Matcher<object> EqualTo(object item) {
    return new IsEqual<object>(item);
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the last bit was exactly what I ended up using. Thanks! –  Gishu Apr 10 '11 at 15:59
(object)null works –  walterhuang Aug 28 '13 at 6:17

Not possible without explicitly specifying a T or doing a cast. Generics are compile time constructs and as such if the compiler can't figure out the type at compile time, then it won't compile (as you're seeing).

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Thats right, EqualTo((SomeType))null) works. –  Zebi Apr 10 '11 at 14:56

Since you can't do exactly what you are wanting to do, how about defining an EqualTo(object) overloaded method? That should allow your required syntax.

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You may work around this limitation by using the following syntax:


default(T) is the value a field of type T has if not set. For reference types, it's null, for value types it's essentially memory filled with zero bytes (...which may mean different things for different types, but generally means some version of zero).

I try to avoid the null everywhere in my code nowadays. It hampers type inference elsewhere too, such as with the var declared field and in a ternary operator. For example, myArray==null ? default(int?) : myArray.Length is OK, but myArray==null ? null : myArray.Length won't compile.

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Maybe implementing a non-generic EqualTo, which takes an Object as the argument type, would solve the issue of rewriting those code lines.

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