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Why would this code complain about "the arity of the generic type definition"?

I've got a generic type:

class DictionaryComparer<TKey, TValue> : IEqualityComparer<IDictionary<TKey, TValue>>

And a factory method that will (should) create an instance of this class for a given dictionary type.

    private static IEqualityComparer<T> CreateDictionaryComparer<T>()
    {
        Type def = typeof(DictionaryComparer<,>);
        Debug.Assert(typeof(T).IsGenericType);
        Debug.Assert(typeof(T).GetGenericArguments().Length == 2);

        Type t 开发者_如何学编程= def.MakeGenericType(typeof(T).GetGenericArguments());

        return (IEqualityComparer<T>)Activator.CreateInstance(t);
    }

Stripping away all of the extraneous stuff - even this code throws the same exception.

private static object CreateDictionaryComparer()
{
    Type def = typeof(DictionaryComparer<,>);

    Type t = def.MakeGenericType(new Type[] { typeof(String), typeof(object) });

    return Activator.CreateInstance(t);
}

The Asserts pass so I know that T is generic and has two generic arguments. The line with MakeGenericType however excepts with:

The number of generic arguments provided doesn't equal the arity of the generic type definition.

Parameter name: instantiation

I've done this sort of thing in the past and for the life of me can't figure out why this isn't working in this case. (plus I had to Google arity).


Figured it out.

I had DictionaryComparer declared as an inner class. I can only assume that MakeGenericType wanted to make a Query<T>.DictionaryComparer<string,object> and was not provided T.

Failing code

class Program
{
    static void Main(string[] args)
    {
        var q = new Query<int>();
        q.CreateError();
    }
}

public class Query<TSource>
{
    public Query()
    {    
    }

    public object CreateError()
    {
        Type def = typeof(DictionaryComparer<,>);

        Type t = def.MakeGenericType(new Type[] { typeof(String), typeof(object) });

        return Activator.CreateInstance(t);
    }

    class DictionaryComparer<TKey, TValue> : IEqualityComparer<IDictionary<TKey, TValue>>
    {
        public DictionaryComparer()
        {
        }

        public bool Equals(IDictionary<TKey, TValue> x, IDictionary<TKey, TValue> y)
        {
            if (x.Count != y.Count)
                return false;

            return GetHashCode(x) == GetHashCode(y);
        }

        public int GetHashCode(IDictionary<TKey, TValue> obj)
        {
            int hash = 0;
            unchecked
            {
                foreach (KeyValuePair<TKey, TValue> pair in obj)
                {
                    int key = pair.Key.GetHashCode();
                    int value = pair.Value != null ? pair.Value.GetHashCode() : 0;
                    hash ^= key ^ value;
                }
            }
            return hash;
        }
    }
}


CLR creates an internal data structure for each and every type in use by an application.These data structures are called type objects. A type with generic type parameters is called an open type, and the CLR does not allow any instance of an open type to be constructed (similar to how the CLR prevents an instance of an interface type from being constructed).

Change

Type t = def.MakeGenericType(new Type[] { typeof(String), typeof(object) });

on the

Type t = def.MakeGenericType(new Type[] { typeof(TSource), typeof(String), typeof(object) });
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