I have a method with the following overloads:

string Call(string function, Dictionary<string, object> parameters, object body)
string Call(string function, Dictionary<string, object> parameters, JObject body)

Now I added another overload:

string Call(string function)
    return Call(function, null, (JObject) null);

I added a cast to JObject so the compiler knows which overload it should use. But Visual Studio tells me that the cast is redundant. But why isn't my call ambiguous without the cast?

  • 19
    Even if it isn't ambiguous to the compiler i would keep the cast there as it could be ambiguous to the person reading the code
    – Alex
    Jul 31, 2015 at 15:01
  • 5
    @jean No, that's not the reason. I'm telling the compiler which overload to use. And it does matter which method overload is being used since they could have completely different implementations. null is null, but the cast here is a hint which overload should be used.
    – fero
    Jul 31, 2015 at 18:16
  • 1
    @jean I'm afraid this is wrong again. The cast is only redundant because the compiler will still use the JObject overload even if I don't cast to JObject because it uses the most specific overload that matches the parameters, and null can match anything and JObject is more specific than object. See Jon Skeet's answer for a detailed explanation.
    – fero
    Aug 3, 2015 at 6:09

1 Answer 1


But why isn't my call ambiguous without the cast?

Because the overload with the JObject parameter is "better" than the overload with the object parameter... because the conversion from null to JObject is "better" than the conversion from null to object.

JObject is more specific than object, because there's an implicit conversion from JObject to object, but not vice versa.

If the final parameter for the first method were string instead (for example) then neither overload would be better than the other, and the call would be ambiguous without the cast.

See section 7.5.3 of the C# 5 specification for all the intricate details. In particular, section ("better conversion target") is relevant here.

  • 8
    Even if a cast isn't necessary with the class as it exists today, failure to cast the null will make the calling code very brittle, since the addition of almost any additional reference-type overload would break calling code which doesn't cast. I would not consider any cast of a null reference to be "redundant" in cases where there's any realistic possibility of additional reference-type overloads that might become ambiguous, or even for that matter in cases where a particular overload is deemed "better" by the rules but it's far from obvious that it's better in any practical sense.
    – supercat
    Jul 31, 2015 at 17:14
  • 1
    BTW, I've long thought that languages with overloading would benefit greatly from a means of using attributes or some other means to specify certain overloads should be considered "preferred" if they're usable, while others should be considered only as "fallbacks"; I've also thought it would be helpful if an overload could specify a parameter type of null. Do you know of any languages that do such things?
    – supercat
    Jul 31, 2015 at 17:17
  • @supercat: Nope, I'm afraid not.
    – Jon Skeet
    Jul 31, 2015 at 17:18
  • 2
    @supercat: C++11 and later introduce nullptr_t, which can be used as a parameter type. But null pointer literals are still implicitly convertible to int and object pointer types, so that doesn't help much with overload resolution. A trailing variadic parameter list (...) in C++ (all versions) is pretty good at making a particular overload less preferred.
    – Ben Voigt
    Jul 31, 2015 at 17:38
  • 8
    @supercat If you really want to specify the overload manually, why not just have a new uniquely named function?
    – Superbest
    Jul 31, 2015 at 19:08

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